8501024 XVME-6400 USER`S MANUAL
Contents
1. AD 37 GND GND AD 36 AD 35 AD 34 AD 33 GND 3 3V AD 32 NC NC NC GND NC NO CONNECT Acromag Inc Tel 248 295 1541 56 NC USER MANUAL www acromag com XVME 6400 6 2 5 4 J24 Upper PMC Site Rear I O Connector This standard 64 pin Molex 71439 0164 connector brings the Rear I O from the PMC XMC module s P4 connector The corresponding signals can be found on the VME P2 connector The signals are routed as 1000hm differential pairs SIGNAL UPR IOO P SIGNAL UPR IO1 P UPR IOO N UPR IO1 N UPR IO2 P UPR 103 P UPR IO2 N UPR 103 N UPR IO4 P UPR_IOS P UPR IO4 N UPR OS N UPR Oe P UPR 107 P UPR IO6 N UPR 107 N UPR OS P UPR IO9 P UPR IO8 N UPR IO9 N UPR 1010 P UPR IO11 P UPR 1010 N UPR IO11 N UPR 1012 P UPR 1013 P UPR IO12 N UPR 1013 N UPR IO14 P UPR IO15 P UPR IO14 N UPR IO15 N UPR lO16 P UPR 1017 P UPR 1016 N UPR 1017 N UPR IO18 P UPR IO19 P UPR IO18 N UPR 1019 N UPR 1O20 P UPR IO21 P UPR 1020 N UPR 1021 N UPR 1022 P UPR 1023 P UPR 1022 N UPR 1023 N UPR 1024 P UPR 1025 P UPR 1024 N UPR 1025 N UPR 1026 P UPR 1027 P UPR 1026 N UPR 1027 N UPR 1028 P UPR 1029 P UPR 1028 N UPR 1029 N UPR 1030 P UPR 1031 P2. cccscsscssscsscscccsccsessccescnsccsscuscccscsccsccescesenssscscessuess 68 7 4 Installation onto XVME 6400 cccccsecssccsscscccsccsccsccescnscsescuscecsesccescescesenesacseuscuess 68 2 5 Specifications eege 69 RN 69 725 25 Connector InformoatlOn WEE 70 ESZE J3 EXpahsiOn CONO ade qe Sa Tua eredi 70 7 522 7 Ethernet COR nectOr EE 71 7 5 2 3 J2 RS 232 Serial Connector oooccccccccncnononocnnnnnnononenaccnnnonononanacononononnnnrocononononnnncrannnnnnannnns 71 7 5 2 4 RS 232 Serial Adapter Cable nnne en terna nnne enne 71 1 5 2 5 J4 USB 2 0 CONNE CRON RE EE EE ESE iaa 72 Rn EE KT a Re ele leet EE 72 35 237 A RN A Gee ee ee En GR Ged RE SR Re E ee Re De 73 7 5 2 8 J6 MSATA ConnectOF ese ss see se ee dee ee ee ee ee ER ee ee ee ee ee ee kein ee essa ee Re ee ee sas sanae ao 74 7 6 Power Requirements EE 75 7 7 Environmental Considerations cccccsccssscsccsscssccsssscccscnsessscescucsesccssceccescnsssescessuess 75 7 8 XBRD 9060 Certificate of Volatility ecce eese eere ee eene eene GE AR ee nnne 76 8 0 XVME 9640 REAR TRANSITION ACCESSORY MODULE 77 8 1 Ordering Information reete cia xo itane par ae ku S Pneu ak ela swa s DNE ES UAR RE de WS Fr E ERAS AA 78 8 2 Hardware Information and Configuration ceee eese eene eese eene ee eene eene 78 82 1 Switch SWE Configuratio M iss erbe eee aee eee e Pe ue MERE EYE kd eve eek Pe Pe e
3. GND UPR 1026 N COM2_RX UPR IO11 P UPR IO5 N UPR 1027 P UPR IO19 P UPR IO11 N GND UPR 1027 N UPR 1020 N UPR 1012 P UPR oe P UPR 1O28 P UPR 1O20 P UPR 1012 N GND UPR 1028 N UPR 1021 N UPR 1013 P UPR IO6 N UPR 1029 P UPR IO21 P UPR 1013 N GND UPR 1029 N UPR 1022 N UPR 1014 P UPR_IO7_P UPR 1O30 P UPR 1022 P UPR IO14 N GND UPR 1030 N UPR IO15 N UPR 1015 P UPR 107 N UPR 1031 P UPR 1023 P GND GND NC NO CONNECT 1 TX and RX only used when serial port is in RS 422 RS 485 mode Acromag Inc Tel 248 295 1541 UPR 1031 N 80 UPR 1023 N 5V www acromag com XVME 6400 USER MANUAL 8 4 2 3 J1 VGA Connector This standard 15 pin D SUB Kycon K66X E15S N VESA connector brings the VGA port out the front panel SIGNAL VGA RED VGA GRN VGA BLUE NC GND GND RED GND GREEN GND BLUE AEN VGA 1A MAX GND NC VGA I2C DAT VGA HSYNC VGA VSYNC VGA DC CLK NC NO CONNECT ojo NOV BENE 8 4 2 4 J4 USB 2 0 Connector This 4 pin USB 2 0 A style Molex 67329 8001 connector Brings USB port 4 out the front panel The power is current limited to 1A shared with J3 SIGNAL 45V USB POWER USB4_N USB4 P GND 8 4 2 5 J3 USB 2 0 Connector This 4 pin USB 2 0 A style Molex 67329 8001 connector Brings USB p
4. JTAG_TMS JTAG_TDO JTAG_TDI GND GND NC NC NC PU to 3 3V 3 3V RSTH GND 3 3V GND NC GND AD 30 AD 29 GND AD 26 AD 24 3 3V AD 22 IDSEL AD 23 3 3V AD 20 AD 18 GND AD 16 C BE 2 GND NC TRDY 3 3V GND STOP PERR GND 3 3V SERR C BE 1 GND AD 14 AD 13 M66EN AD 10 AD 8 3 3V AD 7 NC 3 3V NC NC NC NC GND NC ACK64 GND NC NO CONNECT PU PULLUP 49 NC USER MANUAL This standard 64 pin Molex 71439 0164 connector interfaces the PCI X bus to the Lower PMC module www acromag com XVME 6400 6 2 4 3 J13 Lower PMC Site PCI X Connector This standard 64 pin Molex 71439 0164 connector interfaces the PCI X bus to the Lower PMC module SIGNAL NC SIGNAL GND GND C BE 7 C BE 6 C BE 5 C BE 4 GND 3 3V PAR64 AD 63 AD 62 AD 61 GND GND AD 60 AD 59 AD 58 AD 57 GND 3 3V AD 56 AD 55 AD 54 AD 53 GND GND AD 52 AD 51 AD 50 AD 49 GND GND AD 48 AD 47 AD 46 AD 45 GND 3 3V AD 44 AD 43 AD 42 AD 41 GND GND AD 40 AD 39 AD 38 AD 37
5. Acromag Inc Tel 248 295 1541 UPR 1030 N UPR 1031 N 57 USER MANUAL www acromag com XVME 6400 6 2 5 5 J25 Upper XMC Site PCIe Connector This standard 114 pin Samtec ASP 103612 04 connector connects the PEG PCle interface from the CPU to the Upper XMC module ROW PIN a PEG8_RX_P PEG8_RX_N 3 3V PEG9_RX_P USER MANUAL PEG9_RX_N 5V GND GND NC GND GND PLT_RST PEG10 RX P PEG10 RX N 3 3V PEG11_RX_P PEG11_RX_N 5V GND GND JTAG_TCK GND GND NC PEG12_RX_P PEG12_RX_N 3 3V PEG13_RX_P PEG13_RX_N 5V GND GND JTAG_TMS GND GND 12V PEG14_RX_P PEG14_RX_N 3 3V PEG15_RX_P PEG15_RX_N 5V GND GND JTAG_TDI GND GND 12V Oo INDO BEN NC NC NC NC NC 5V GND GND JTAG_TDO GND GND GND GAO PEGO TX P PEGO TX N NC PEG1 TX P PEG1 TX N 5V GND GND GND GA1 GND GND XMC_SEL PEG2_TX_P PEG2_TX_N NC PEG3 TX P PEG3 TX N 5V GND GND GND GA2 GND GND SMB_DATA PEG4_TX_P PEG4_TX_N NC PEG5_TX_P PEG5_TX_N 5V GND GND XMCA_WP GND GND SMB_CLK PEG6_TX_P PEG6_TX_N NC PEG7_TX_P PEG7_TX_N NC GND GND NC GND GND NC PEG_CLK_P NC NO CONNECT XMC SEL Auto switches mux to route
6. NC NC NC NC This 6 pin Molex 78171 5006 connector carries the Lower PMC or XMC module s JTAG interface The VREF voltage can be selected between 2 5V or 3 3V with SW5 SIGNAL JTAG TDI JTAG TDO GND JTAG TCK JTAG TMS JTAG VREF Acromag Inc Tel 248 295 1541 52 www acromag com XVME 6400 USER MANUAL 6 2 4 7 J16 Lower XMC Site Rear I O Connector This standard 114 pin Samtec ASP 103612 04 connector can with a build option bring the Lower XMC module s P6 I O to the XVME 6400 s PO connector instead of the XMC PMC module s P4 connector The signals are routed as 100ohm differential pairs Consult Factory for this option ROW PIN a LWR On P LWR OO N NC LWR IO1 P LWR IO1 N NC GND GND NC GND GND NC LWR IO2 P LWR 102 N NC LWR 103 P LWR 103 N NC GND GND NC GND GND NC LWR IO4 P LWR_I04_N NC LWR OS P LWR_IO5_N NC GND GND NC GND GND NC LWR 1O6 P LWR_IO6_N NC LWR 107 P LWR 107 N NC GND GND LWR 1030 N GND GND LWR 1031 N o o NIOIY BEN LWR 1O8 P LWR 1O8 N LWR 1030 P LWR IO9 P LWR 1O9 N LWR 1031 P GND GND LWR 1028 N GND GND LWR 1029 N LWR 1010 P LWR 1010 N LWR 1028 P LWR 1011 P LWR IO11 N LWR 1029 P GND GND LWR 1026 N GND GND LWR 1027 N LWR 1012 P LWR
7. S0 Max was measured with module operating at 40 C ambient with 300LFM airflow using Windows 8 1 Operating System Prime95 Large FFT torture test stressing all CPU cores at max 16GB RAM 1 connected SATA device one USB keyboard one USB mouse VGA monitor DVI monitor No PMC XMC cards installed At temperatures above this the CPU throttling during heavy CPU usage reduces the maximum power consumed more than it is raised from the increase in temperature With Turbo on power is shown as PL1 PL2 where PL1 is the long term power used and PL2 is a short term typically 30 sec power draw during turbo bursts If Turbo is not used the board should not exceed the PL1 power but performance may be impacted 3 S0 Typ was measured with module operating at 23 C ambient with 300LFM airflow using Windows 8 1 Operating System Passmark Burn in test running the following tests CPU Memory 2D Graphics 3D Graphics Disk and Network 16GB RAM 1 connected SATA device one USB keyboard one USB mouse VGA monitor DVI monitor No PMC XMC cards installed Acromag Inc Tel 248 295 1541 63 www acromag com XVME 6400 USER MANUAL 6 5 Environmental Considerations Operating Temperature 0 C to 70 C Standard Air Cooled models 40 C to 75 C Extended Air Cooled models 40 C to TBD C Conduction Cooled models 1 Measured as Ambient Air Temperature 300LFM minimum air flow required Designed to meet this temperature specification Tested un
8. 3 3V 3 3V NC GND NC NC NC NC NC NC NC NO CONNECT Acromag Inc Tel 248 295 1541 274 www acromag com XVME 6400 USER MANUAL 7 6 Power Requirements The power used by the XBRD 9060 board without any mSATA modules installed is negligible mSATA power draws from the available 3 3V on the XVME 6400 1 5V is also available but usage of this voltage on mSATA modules is not widespread 7 7 Environmental Considerations Operating Temperature 40 C to 75 C 1Measured as Ambient Air Temperature 300LFM minimum air flow required Designed to meet this temperature specification Note Temperature rating is exclusive of mSATA module s Commercial grade mSATA modules are normally rated 0 C to 70 C Relative Humidity 596 to 9596 Non condensing Storage Temperature 55 C to 100 C Shock Non Operating 50g peak acceleration 11ms duration MIL STD 202G Method 213B Vibration Operating 11 96g RMS 50 20 000Hz each axis MIL STD 202G Method 214A Acromag Inc Tel 248 295 1541 75 www acromag com XVME 6400 USER MANUAL 7 8 XBRD 9060 Certificate of Volatility Certificate of Volatility Acromag Model Manufacturer XBRD 9060 XX Acromag Inc 30765 Wixom Rd Wixom MI 48393 Volatile Memory Does this product contain Volatile memory i e Memory of whose contents are lost when power is removed Yes m No Type SRAM SDRAM etc User Modifiable Func
9. GND GND AD 36 AD 35 AD 34 AD 33 GND 3 3V AD 32 NC NC NC GND NC NO CONNECT Acromag Inc Tel 248 295 1541 50 NC USER MANUAL www acromag com XVME 6400 6 2 4 4 J14 Lower PMC Site Rear I O Connector This standard 64 pin Molex 71439 0164 connector interfaces the Rear I O from the Lower PMC XMC module s P4 connector The corresponding signals can be found on the VME PO connector The signals are routed as 1000hm differential pairs Acromag Inc Tel 248 295 1541 SIGNAL LWR on P SIGNAL LWR IO1 P LWR IOO N LWR IO1 N LWR_I02_P LWR 103 P LWR IO2 N LWR IO3 N LWR 1O4 P LWR os P LWR IO4 N LWR_IO5_N LWR 1O6 P LWR 107 P LWR_IO6_N LWR 107 N LWR OS P LWR 1O9 P LWR OS N LWR_I09_N LWR 1010 P LWR IO11 P LWR 1010 N LWR IO11 N LWR 1012 P LWR 1013 P LWR 1012 N LWR 1013 N LWR 1014 P LWR IO15 P LWR IO14 N LWR IO15 N LWR 1016 P LWR 1017 P LWR 1016 N LWR 1017 N LWR 1018 P LWR 1019 P LWR 1018 N LWR 1019 N LWR 1020 P LWR 1021 P LWR 1020 N LWR 1021 N LWR 1022 P LWR 1023 P LWR 1022 N LWR 1023 N LWR 1024 P LWR 1025 P LWR 1024 N LWR 1025 N LWR 1026 P LWR 1027 P LWR 1026 N LWR 1027 N LWR 1028 P LWR 1029 P LWR 1028 N LWR 1029 N
10. Minimum Backplane Pitch 20 32 mm 0 8 in Unit Weight Air Cooled with PO connector 16 3 oz 0 462 kg Conduction Cooled with PO connector TBD Air Cooled without PO connector 15 8 oz 0 449 kg Conduction Cooled without PO connector TDB 6 2 Connector Information 6 2 1 J3 CPU XDP Debug Connector This connector is a 26 pin Molex 52435 2671 and complies with Intel Shark Bay Debug Port Design Guide It can be used for debug of the CPU using tools and guides available from authorized Intel representatives 6 2 2 J6 SPI BIOS Programming Header This header is used to program the 128Mb SPI Flash EPROM containing the BIOS and ME Firmware and is for factory use only Acromag Inc Tel 248 295 1541 43 www acromag com XVME 6400 6 2 3 VME Interface 6 2 3 1 PO VME Connector Optional This optional connector is a standard 6 row 2mm Type B 95 pin Harting 17 25 095 2102 It contains 2 Ethernet and the Lower Site s PMC I O XMC instead with build option USER MANUAL ROW PIN A B C D E F 1 GND GND GND GND GND GND 2 ENETO MXO P ENETO MXO N GND ENETO MX2 P ENETO MX2 N 3 ENETO MX1 P ENETO Mai N GND ENETO MX3 P ENETO MX3 N GND 4 ENET1_MXO P ENET1 MXO NI GND ENET1_MX2 P ENET1 MX2 Mi 5 ENET1 MX1 P ENET1 Mai NI GND ENETI MX3 P ENET1 MX3 Ni GND 6 ENET1 LINK ENETO LINK amp 3 3V_TO_RTM ENET1_ACTH ENETO ACTH 7 LWR_IOO_P LWR_IO2_P
11. Processor Family Datasheet Volume 1 of 2 Rev 002 September 2013 The processor supports Intel Hyper Threading Technology Intel HT Technology that allows an execution core to function as two logical processors While some execution resources such as caches execution units and buses are shared each logical processor has its own architectural state with its own set of general purpose registers and control registers This feature must be enabled using the BIOS and requires operating system support The Intel HT Technology is enabled by default no action by the operator is required For further information on disabling support for this technology refer to The APTIO Core BIOS Manual For Acromag Products 3 13 2 Enhanced Intel SpeedStep Technology EIST The Enhanced Intel SpeedStep Technology EIST used by this processor enables very high performance while also meeting power conservation needs When EIST is enabled the clock frequency of the CPU is dynamically changed in response to the CPU load The Intel SpeedStep feature is enabled by default For further information on disabling support for this technology refer to The APTIO Core BIOS Manual For Acromag Products 3 13 3 Intel Virtualization Technology Intel VT x and VT d Intel Virtualization Technology Intel VT makes a single system appear as multiple independent systems to software This allows for multiple independent operating systems to be running simult
12. gt on EJ PE 7 f pe 4 de le o ee xi y e F 3 d 1s v GND RB GWD E x a cua o le 4 6 3 2 ESD It is strongly suggested that ESD protection be included in interface circuitry on the VGA and USB ports Failure to do so may cause damage the XVME 6400 in the event of an ESD discharge into the I O pins Acromag Inc Tel 248 295 1541 62 www acromag com XVME 6400 USER MANUAL 6 4 Power Requirements The power required to properly operate the XVME 6400 module will vary depending on many variables including the operating system application software and the components that the module is integrated with See notes below for defined variables used to measure the following power values 5VDC 5 3 when the backplane supplies 3 3V All configurations SO Idle 27 8W i7 4700EQ CPU SO Max 73 5W 86 1W SO Typ 50W i7 4700EQ CPU cTDP 37W SO Max 63W 73 5W SO Typ 50W ib A402E CPU SO Max 50 4W 57 8W SO Typ 35W For systems with backplanes that do not supply 3 3V add 2 5W to the above 5V values 3 3VDC 5 2 when the backplane supplies 3 3V All configurations SO Idle 2 5W SO Max 2 6W SO Typ 2 5W 1S0 Idle was measured with module operating at 23 C ambient with 300LFM airflow using Windows 8 1 Operating System idle at desktop with no active applications running 16GB RAM One connected SATA device one USB keyboard one USB mouse VGA monitor No PMC XMC cards installed
13. 1012 N LWR 1026 P LWR 1013 P LWR 1013 N LWR 1027 P GND GND LWR 1024 N GND GND LWR 1025 N LWR 1014 P LWR_1014_N LWR 1024 P LWR 1015 P LWR IO15 N LWR 1025 P GND GND LWR 1022 N GND GND LWR 1023 N LWR 1016 P LWR 1016 N LWR 1022 P LWR 1017 P LWR 1017 N LWR 1023 P GND GND LWR 1020 N GND GND LWR 1021 N LWR 1018 P NC NO CONNECT Acromag Inc Tel 248 295 1541 LWR 1018 N LWR 1020 P 53 LWR 1019 P LWR 1019 N LWR 1021 P www acromag com XVME 6400 USER MANUAL 6 2 5 Upper PMC XMC Site 6 2 5 1 J21 Upper PMC Site PCI X Connector This standard 64 pin Molex 71439 0164 connector interfaces the PCI X bus to the Lower PMC module SIGNAL SIGNAL JTAG_TCK GND INTAH NC INTCH NC GND NC CLK PCI GND GND GNT1 REQ 5V 3 3V AD 31 AD 28 AD 27 AD 25 GND GND C BE 3 AD 22 AD 21 AD 19 5V 3 3V AD 17 FRAME GND GND IRDY DEVSEL 5V PCIXCAP PU to 3 3V NC NC PAR GND 3 3V AD 15 AD 12 AD 11 AD 9 45V GND C BE 0 amp AD 6 AD 5 AD 4 GND 3 3V AD 3 AD 2 AD 1 AD 0 45V GND REQ64 NC NO CONNECT PU PULLUP Acromag Inc Tel 248 295 1541 54 WWW acromag com XVME 6400 6 2 5 2 J22 Upper PMC Site PCI X Connector Acromag Inc Tel 248 295 1541 SIGNAL
14. 6400 module uses the Advanced Configuration and Power Interface ACPI 3 0 standard to provide user managed power via the operating system 3 2 3 1 ACPI System States There are only two ACPI Module States supported by the XVME 6400 e GO SO Fully operational the main memory is being used for all work e G3 Unpowered Power has been mechanically removed from the system Wake up is not possible in this state Note that S3 Standby or Sleep S4 Hibernate and S5 Soft Off are not supported by the XVME 6400 even if the VME system supports a standby power supply 3 2 3 2 ACPI Processor States The Advanced Configuration and Power Interface ACPI provides an open standard for device configuration and power management by the operating system More details about this feature are provided in The APTIO Core BIOS Manual For Acromag Products Acromag Inc Tel 248 295 1541 22 www acromag com XVME 6400 3 3 CPU USER MANUAL The Intel Gen 4 Haswell CPU is available as either a 2 4GHz quad core i7 or a 1 6GHZ dual core i5 This 64 bit 22 nanometer CPU with integrated GT2 graphics contains direct interfaces for DDR3L DDI and PCle x16 In addition the Direct Media Interface DMI is used to connect to the QM87 Platform Control Hub PCH e DDR3L SDRAM 2 SODIMM sockets support up to 16GB of DDR3L ECC at 1600MHz Dual channel mode is used with 2 SODIMMs The SODIMMS are attached to the module firmly with screws and sur
15. EE 30 3 12 1 Trusted Platform Support 30 312 2 Password Bei Tu de EE 30 3 13 System Management sissies esee eis ex eee ree coros oae ys eden anao Sue dee SA ees Saec ec 31 3 13 1 Intel Hyper Threading Technology 31 3 13 2 Enhanced Intel SpeedStep Technology EIST 31 Acromag Inc Tel 248 295 1541 2 www acromag com XVME 6400 USER MANUAL 3 13 3 Intel Virtualization Technology Intel VT x and VT 31 3 13 4 Intel Trusted Execution Technology TTT 32 3 13 5 Intel Turbo Boost Technology 32 3 13 6 Intel Active Management Technology 33 3 13 7 Intel Matrix Storage Technology 33 3 13 8 Intel Configurable TDP Technology esent tette te 33 3 14 Thermal Management sisie ies ee id Ee De de privi Sea Perego AY GE Ee Ge ee EE 33 3 14 1 Thermal Monitoring rer ee SE SG dias 34 3 14 2 Thermal Reen 34 3 14 2 1 CPU Throttling Hardware Controlled ees ee ee se ee ee ee ee ee ee ee ee Re ee ee 34 3 14 2 2 Thermal Management OSPM Controlled ee ee ee ee ee ee ee RR ee ee 34 3 14 3 Memory Throttling tes ss ee eee a ge ee DE a e Eg ee AS Eg Ee Ee 34 3 14 4 Thermal Management Hardware 34 3 15 WatchdO iss sis es sed eed a dd A E A 35 3 16 Expansion Sites EE EED Ee Ee EES eo Ge RD OE Ee EE OGE Pe EG EE REG ee eN GE Ge Dee Se Te De Pe ee Des ESO 36 3 16 1 XM C Mol Ee ee conie a eee Aaa 36 3 16 2 PMC MoOdulBs EE EE EE RE EE EE RE EE EE EE
16. I O compatibility mode consult factory for more info 28 www acromag com XVME 6400 3 9 4 USB 3 10 Gigabit Ethernet USER MANUAL For further information regarding BIOS serial port configuration refer to The APTIO Core BIOS Manual For Acromag Products The Intel Lynx Point PCH has up to two Enhanced Host Controller Interface EHCI host controllers to support USB high speed signaling on all eight USB 2 0 high speed ports USB 2 0 allows data transfers up to 480 Mbps The Intel Lynx Point PCH also has an eXtensible Host Controller Interface xHCI host controller to support four USB 3 0 ports available only via options XBRD 9060 This allows data transfers of up to 5 Gbps which is 10 times faster than high speed USB 2 0 These USB features support e USB hard disk drives flash drives floppy disk drives and CD ROM DVD ROM drives e Super speed high speed full speed and low speed USB e USB 3 0 Super speed on four of eight USB 2 0 expansion ports e High speed USB 2 0 debug port on USB port 1 e Console redirection on USB port 1 with a debug cable PCH USB 2 0 ports O and 1 are routed to the front panel s 26 pin connector Both ports share 1A of available power PCH USB 2 0 Ports 2 and 3 are routed to the optional XBRD 9060 PCH USB 3 0 ports 5 and 6 are also routed to the optional XBRD 9060 combined with USB 2 0 ports 2 and 3 respectively PCH USB 2 0 Ports 8 amp 9 are routed to the VME P2 connector Both
17. PEG lines to XMC instead of PMC bridge when XMC module is installed 6 2 5 6 J9 Upper PMC XMC Site JTAG Connector PEG CLK N NC NC NC NC This 6 pin Molex 78171 5006 connector carries the Lower PMC or XMC module s JTAG interface The VREF voltage can be selected between 2 5V or 3 3V with SW5 SIGNAL JTAG TDI JTAG TDO GND JTAG TCK JTAG TMS JTAG VREF Acromag Inc Tel 248 295 1541 58 www acromag com XVME 6400 6 2 5 7 J7 Upper PMC XMC Site Expansion Connector SIGNAL ENET1 MDI2 Ni SIGNAL ENET1 MDIO Ni ENET1 MDI2 P ENET1 MDIO P GND GND ENET1 MDI3 Ni ENET1 MDI1 Ni ENET1 MDI3 P ENET1 MDI1 P GND GND SATA1 TX N SATAO TX N SATA1 TX P SATAO TX P GND GND SATA1 RX N SATAO RX N SATA1 RX P SATAO RX P GND GND Reserved Reserved Reserved Reserved GND GND Reserved Reserved Reserved Reserved GND GND USB2 N USB3 N USB2 P USB3 P SMB CLK SMB DATA 5V 5V USB_OCH ENET1_ACT 5V ENET1_LINK PLT_RST COM3_TXD 3 3V 3 3V NC COM3_RXD 3 3V GND ENET1_SEL 3 3V 3 3V 1 5V USER MANUAL This 60 pin Samtec QSH 030 01 L D A K connector is used for I O connection to the optional XBRD 9060 I O Expander module NC NO CONN
18. Products 25 SEP 15 JGV ARP Removed conduction cooled extended temperature and leaded solder models Customers advised to contact factory Acromag Inc Tel 248 295 1541 91 www acromag com
19. for repair 5 2 Preliminary Service Procedure CAUTION POWER MUST BE TURNED OFF BEFORE REMOVING OR INSERTING BOARDS Before beginning repair be sure that all of the procedures in the Preparation for Use section have been followed Also refer to the documentation for the module to verify that it is correctly configured Replacement of the module with one that is known to work correctly is a good technique to isolate a faulty module 5 3 Where to Get Help If the problem persists the next step should be to visit the Acromag worldwide web site at http www acromag com Our web site contains the most up to date product and software information Go to the Support tab to access e Application Notes e Frequently Asked Questions FAQ s e Product Knowledge Base e Tutorials e Software Updates Drivers Acromag s application engineers can also be contacted directly for technical assistance via email telephone or FAX through the contact information listed below Note that an email question can also be submitted from within the Knowledge Base or directly from the Contact Us tab When needed complete repair services are also available e Email solutions acromag com e Phone 248 295 0310 e Fax 248 624 9234 Acromag Inc Tel 248 295 1541 42 www acromag com XVME 6400 USER MANUAL 6 0 SPECIFICATIONS 6 1 Physical The XVME 6400 conforms to the 6U Eurocard form factor Height 233 35 mm 9 187 in Depth 160 0 mm 6 3 in
20. heat removal is an issue This is accomplished by the CPU automatically underclocking its frequency to maintain a power level at the set limit 1 6 2 Intel QM87 Chipset Lynx Point PCH The Intel 8 Series QM87 Lynx Point PCH provides extensive I O support as listed below PCle x4 2 There are two PCle ports of x4 width The first is connected to a PEX8114 PCle gt PCI X bridge for the TSI 148 VME Bridge The other is connected to the Intel 82580EB Quad Gigabit Ethernet controller SATA II 2 There are two SATA ports that operate up to 3Gb sec connected to the VME P2 connector SATA III 2 There are two SATA ports that operate up to 3Gb sec connected to the Expansion Site connector for the optional XBRD 9060 Bootable on board SSD Flash 8GB of soldered down on board SSD Flash is standard on all units As a special build option devices are available up to 32GB Please consult the factory for this option USB 2 0 6 There are two ports connected to the VME P2 connector and two ports connected to the front panel s 26 pin connector that function at USB 2 0 or USB 1 1 speeds There are an additional two ports available on the Expansion Site connector for the optional XBRD 9060 VGA An analog VGA port is available including DDC clock and data at either the VME P2 connector or the front panel s 26 pin connector Only one connection may be used at a time and should auto switch when a monitor is plugged in to either port O
21. ports share 1A of available power For information on configuring specific USB ports see The APTIO Core BIOS Manual For Acromag Products The XVME 6400 uses the Intel 82580EB Gigabit Ethernet Controller which contains both the MAC and the physical layer It provides 4 ports that auto sense 10 Base T 100Base T and 1000Base TX connections Any port may be used to PXE boot from a PXE server on the network Link and Activity LEDs are available for each port e Two ports are available on the front panel s RJ Point 5 connector One adapter cable is included with the XVME 6400 to connect from the front panel s RJ Point 5 connector to a standard RJ45 connector e Two ports are available on the optional VME PO connector for use on a VITA 31 1 Switch Fabric compliant backplane or via the optional XVME 9640 RTM module Acromag Inc Tel 248 295 1541 29 www acromag com XVME 6400 USER MANUAL e One of the PO ports may instead be switched to the Expansion Site connector making it available on the front panel via the XBRD 9060 1 O Expander module For information regarding how to boot from the network refer to The APTIO Core BIOS Manual For Acromag Products 3 11 Battery Powered Real Time Clock RTC A Motorola MS146818B compatible real time clock RTC is included in the Intel Lynx Point PCH The RTC has 256 bytes of battery backed RAM and runs on a 32 768 KHz crystal with a 3V battery The RTC performs two key functions e It
22. respective owners 1 2 2 Class A Product Warning This is a Class A product In a domestic environment this product may cause radio interference in which case the user may find it necessary to take adequate corrective measures 1 2 3 Environmental Protection Statement This product has been manufactured to satisfy environmental protection requirements where possible Many components used structural parts circuit boards connectors batteries etc are capable of being recycled Final disposition of this product after its service life must be conducted in accordance with applicable country state or local laws or regulations Acromag Inc Tel 248 295 1541 7 www acromag com XVME 6400 1 3 Product Summary USER MANUAL The XVME 6400 is a CPU module that uses an Intel 4 Generation Core Processor Haswell GU VME64X VMEbus form factor It is available in both air and conduction cooled varieties The module can support either one or two DDR3L ECC SODIMMS for a total of up to 16GB The SODIMMs are firmly attached to the module with screws and surrounded by heat sink material to provide a mechanically and thermally robust mechanism Extended temperature models are available for operating in a 40 C to 85 C range A large amount of I O is available as summarized in the Key Features and Benefits section below There are two PMC XMC sites available on the module These can be used as 2 XMC 2 PMC or one of each type
23. the XBRD 9060 Data transfer rates of up to 3 0Gbps ports on the rear VME P2 To configure SATA operation refer to The APTIO Core BIOS Manual For Acromag Products The SMBus is connected directly to the PCH and contains several devices accessible at the addresses shown below to Table 3 9 1 a SMBus Address Table SMBus Address Function 0x32 DIMMA Temp 0x34 DIMMB Temp OxAO ID EEPROM OxA2 DIMMA SPD OxA4 DIMMB SPD OxA8 Lower XMC Site OxAA Upper XMC Site The LPC interface contains the onboard NCT6776D Super I O device which supplies the serial ports and also outputs the Port80 Power On Self Test POST codes to the dual 7 segment display For further information regarding the system BIOS and LPC interfaces refer to The APTIO Core BIOS Manual For Acromag Products Four 16550 compatible serial ports are supplied by the NCT6776 Super 1 0 chip Acromag Inc Tel 248 295 1541 One RS 232 only including RTS CTS DTR and DSR control lines is available on the front panel s 26 pin connector One RS 232 RS 422 RS 485 software selectable with TX RX signals only is available on the VME P2 connector One RS 232 only with TX RX signals only is routed to the Expansion Site connector to make the port available on the front panel via the optional XBRD 9060 One RS 232 RS 422 RS 485 including RTS CTS DTR and DSR control lines is available when the board is built for optional XVME 6300
24. to aid in software debugging A 26 pin XDP debug connector is also available for connecting compatible emulator tools directly to the CPU For more information see Intel publication 479493 Shark Bay and Denlow Platforms Debug Port Design Guide Acromag Inc Tel 248 295 1541 8 www acromag com XVME 6400 USER MANUAL 1 4 Related Material The following manuals and part specifications provide the necessary information for in depth understanding of the xvme 640 module e ANSI VITA 1 1 1991 R2003 VME64 Extensions http vita com e ANSI VITA 1 5 2003 R2009 2eSST http vita com e ANSI VITA 39 2003 PCI X Auxiliary Standard for PMCs and Processor PMCs http vita com e ANSI VITA 42 XMC http vita com e APTIO Core BIOS Manual For Acromag Products 8501026 The APTIO Core BIOS Manual For Acromag Products e Intel document No 328901 Mobile 4 Generation Intel Core Processor Family Datasheet Volume 1 of 2 Rev 002 September 2013 http www intel com content www us en processors core CoreT echnicalResources html e TSI148 User Manual http www idt com products interface connectivity vme pcix vme bridge tsi148 vme pci x bridge 1 5 Ordering Information When ordering the XVME 64AA BCCDE X VMEbus CPU module please select from and specify the available option choices A BB C and D as defined below such as XVME 6410 116E LF etc e Select the cooling option AA Y 10 Air Cooled Y 20 C
25. two PCle ports of x4 width The first is connected to a PEX8114 PCle PCI X bridge for the TSI 148 VME Bridge The other is connected to the Intel 82580EB Quad Gigabit Ethernet controller SATA II 2 There are two SATA ports that operate up to 3Gb sec connected to the VME P2 connector SATA II 2 There are two SATA ports that operate up to 3Gb sec connected to the Expansion Site connector for the optional XBRD 9060 Bootable on board SSD Flash 8GB of soldered down on board SSD Flash is standard on all units As a special build option devices are available up to 32GB Please consult the factory for this option USB 2 0 4 There are two ports connected to the VME P2 connector and two ports connected to the front panel s 26 pin connector that function at USB 2 0 or USB 1 1 speeds There are an additional two ports available on the Expansion Site connector for the optional XBRD 9060 VGA An analog VGA port is available including DDC clock and data at either the VME P2 connector or the front panel s 26 pin connector Only one connection may be used at a time and should auto switch when a monitor is plugged in to either port Override switches are available on SW2 LPC The Low Pin count Bus is connected to both the NCT6106D Super l O for serial ports and debug port 80 connections in addition to the AT97SC3204 TPM device SPI The Serial Peripheral Interface is used for the onboard boot flash 24 www acroma
26. 1 d JTAG VREF Configuration Switch SW5 Table 3 1 d summarizes the functions settings and descriptions for dip switch SW5 JTAG VREF Configuration Switch SW5 Function Switch Setting Lower Site Lower Site VREF 3 3V 18 JTAG VREF Lower Site VREF 2 5V Configuration Upper Site Upper Site VREF 3 3V J9 JTAG VREF Configuration Upper Site VREF 2 5V SW5 is used to select the VREF voltage for the XMC PMC JTAG connections on J8 and J9 Acromag Inc Tel 248 295 1541 18 www acromag com XVME 6400 USER MANUAL 3 1 5 VME Configuration Switch SW6 Table 3 1 e summarizes the functions settings and descriptions for dip switches SW6 1 thru SW6 4 Table 3 1 e VME Configuration Switch SW6 Configuration Switch SW6 OFF OFF SYSCON Autodetect SYSCON OFF ON SYSCON Enabled Configuration ON OFF SYSCON Disabled ON ON SYSCON Disabled Local Reset Does Not Drive VME SYSRSTH Local Reset Drives VME SYSRSTH VME SYSRSTH Does Not Drive XVME 6400 Local Reset VME SYSRST Drives XVME 6400 Local Reset VME SYSRSTH OUT Configuration VME SYSRSTH IN Configuration SW6 1 and SW6 2 are used to configure SYSCON functionality If SYSCON is set to autodetect and the BG3 functionality of the backplane is correct the XVME 6400 will assume SYSCON functionality if it is the left most slot in the backplane SYSCON functionality can be forced to be enabled or disabled as well SW6 3 is us
27. 12V SIGNAL NC JTAG_TMS JTAG_TDO JTAG_TDI GND GND NC NC NC PU to 3 3V 3 3V RST GND 3 3V GND NC GND AD 30 AD 29 GND AD 26 AD 24 3 3V AD 23 IDSEL AD 23 3 3V AD 20 AD 18 GND AD 16 C BE 2 GND NC TRDY 3 3V GND STOP PERR GND 3 3V SERR C BE 1 GND AD 14 AD 13 M66EN AD 10 AD 8 3 3V AD 7 NC 3 3V NC NC NC NC GND NC ACK64 GND NC NO CONNECT PU PULLUP NC 55 USER MANUAL This standard 64 pin Molex 71439 0164 connector interfaces the PCI X bus to the Lower PMC module www acromag com XVME 6400 6 2 5 3 J23 Upper PMC Site PCI X Connector This standard 64 pin Molex 71439 0164 connector interfaces the PCI X bus to the Lower PMC module SIGNAL NC SIGNAL GND GND C BE 7 C BE 6 C BE 5 C BE 4 GND 3 3V PAR64 AD 63 AD 62 AD 61 GND GND AD 60 AD 59 AD 58 AD 57 GND 3 3V AD 56 AD 55 AD 54 AD 53 GND GND AD 52 AD 51 AD 50 AD 49 GND GND AD 48 AD 47 AD 46 AD 45 GND 3 3V AD 44 AD 43 AD 42 AD 41 GND GND AD 40 AD 39 AD 38
28. 12V 5V m Qo O NIDA BEN NC NO CONNECT 1 The XVME 6400 will use 3 3V from the backplane if present but it is not required 6 2 3 3 P2 VME Connector Standard 1 0 Acromag Inc Tel 248 295 1541 45 www acromag com XVME 6400 USER MANUAL This standard VME 5 row 160 pin Harting 02 01 160 2101 connector brings in standard PC I O as well as the Upper Site s PMC I O Note The signals on the A and Z rows is not available when installed in a legacy 3 row backplane ROW PIN a UPR_IOO_P SATA TX2 P 5V AUD_OUT_R DVI_PO_P GND SATA_TX2_N GND AUD_OUT_L DVI_PO_N UPR IOO N GND VME_RETRY AUD_GND GND GND SATA_RX2_P VME_A24 AUD_IN_L DVI_P1_P UPR IO1 P SATA RX2 N VME A25 AUD IN R DVI P1 N GND UPR 1016 N VME A26 UPR IO16 P GND UPR IO1 N SATA TX3 P VME A27 UPR 1017 N DVI P2 P GND SATA TX3 N VME A28 UPR 1017 P DVI P2 N o o Oou5 5uU0N UPR IO2 P UPR 1024 P VME A29 VGA RED GND GND SATA RX3 P VME A30 VGA GRN DVI CLK P UPR IO2 N SATA RX3 N VME A31 VGA BLUE DVI CLK N GND UPR 1024 N GND VGA VSYNC GND UPR IO3 P USB P4 P 5V VGA_HSYNC DVI_HPD GND USB P4 N VME D16 UPR IO18 N DVI SDA UPR IO
29. 2 2 is used to override the automatic detection of PMC XMC modules in the upper PMC XMC site If an installed XMC module is not automatically recognized closing this switch will turn off the PMC bridge and force the connection to the XMC card instead of the bridge SW2 3 and 2 4 are used to override the automatic VGA monitor detection on the VGA ports If a monitor connected to a port is not automatically recognized setting the switches as shown will force a particular VGA port to be active Acromag Inc Tel 248 295 1541 17 WWW acromag com XVME 6400 USER MANUAL 3 1 3 VME Configuration Switch SW4 Table 3 1 c summarizes the functions settings and descriptions for dip switch SWA Table 3 1 c VME Configuration Switch SW4 VME Configuration Switch SW4 Position Function Switch Setting 3 5 CR CSR Disabled 7 3 4 Geographical Address 1 6 ASIDEN 2 5 Auto Slot ID GSIDEN Geographical Address 2 4 Defaults to Auto Slot ID if all GA pins are High SWA is used to configure the Auto Slot ID Enable ASIDEN and the Geographic Slot ID Enable GSIDEN VME features The ASIDEN feature allows the CR CSR base address to be configured using the Auto Slot ID protocol The GSIDEN function initializes the CR CSR base address register using the VMEbus GA signals This allows the board to come out of reset with the CR CSR registers visible from the VMEbus 3 1 4 JTAGVREF Configuration Switch SW5 Table 3
30. 3 N UPR 1025 P VME D17 VGA DC DAT DVI_SCL GND USB P5 P VME D18 VGA DC CLK UPR OS P UPR IO4 P USB P5 N VME D19 UPR lO18 P UPR IO8 N GND UPR 1025 N VME D20 COM2_TX UPR og P UPR IO4 N USB 45V VME D21 COM2 DE UPR IO9 N GND USB 45V VME D22 UPR 1019 N UPR 1010 P UPR os P UPR 1026 P VME D23 COM2_RX UPR IO1R N GND UPR 1026 N GND COM2_RX UPR IO11 P UPR IO5 N UPR 1027 P VME D24 UPR lO19 P UPR IO11 N GND UPR 1027 N VME Dip UPR 1020 N UPR 1012 P UPR oe P UPR 1O28 P VME D26 UPR 1O20 P UPR 1012 N GND UPR 1028 N VME D27 UPR 1021 N UPR 1013 P UPR IO6 N UPR 1029 P VME D28 UPR 1021 P UPR 1013 N GND UPR 1029 N VME D29 UPR 1022 N UPR IO14 P UPR IO7 P UPR 1030 P VME D30 UPR 1022 P UPR IO14 N GND UPR 1030 N VME D31 UPR IO15 N UPR IO15 P UPR 107 N UPR 1031 P GND UPR 1023 P GND GND UPR 1031 N 5V 1 TX and RX only used when serial port is in RS 422 RS 485 mode Acromag Inc Tel 248 295 1541 46 UPR 1023 N 5V www acromag com XVME 6400 USER MANUAL 6 2 3 4 P2 VME Connector XVME 6300 Compatible I O Consult Factory for this Option A factory build option makes the P2 I O compatible with the XVME 6300 pinout although some PMC I O si
31. 4 2 11 P3 Lower PMC XMC User I O Connector Optional This optional 40 pin connector Samtec QTH 020 01 F D DP A K carries the PMC XMC module rear I O from the Lower PMC XMC site on the XVME 6400 SIGNAL UPR IO4 P SIGNAL UPR IO14 P UPR IO4 N UPR IO14 N UPR_IOS P UPR IO15 P UPR OS N UPR 1015 N UPR Oe P UPR_IO16_P UPR IO6 N UPR_IO16_N UPR IO7 P UPR 1017 P UPR IO7 N UPR 1017 N UPR lO18 P UPR lO19 P UPR IO18 N UPR 1019 N UPR 1030 P UPR 1O31 P UPR 1030 N UPR 1031 N NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NO CONNECT 8 4 2 12 P1 Audio Connector NC USER MANUAL This 5 pin connector Molex 533980571 is used for the stereo audio line in and line out connections SIGNAL AUD OUT L AUD OUT R AUD AGND AUD INL Acromag Inc Tel 248 295 1541 86 AUD IN R www acromag com XVME 6400 USER MANUAL 8 4 2 13 J6 mSATA Connector This standard 52 pin mSATA connector TE 2041119 1 is used for connecting an mSATA drive module to the XBRD 9060 SIGNAL SIGNAL NC NC NC NC NC NC NC NC GND SATA2 RX N SATA2 RX P GND GND SATA2 TX N SATA2 TX P GND GND 3 3V 3 3V GND NC NC NC NC NC NO CONNECT Acromag Inc Tel 248 295 15
32. 41 87 www acromag com XVME 6400 USER MANUAL 8 4 2 14 J2 mSATA Connector This standard 52 pin mSATA connector TE 2041119 1 is used for connecting an mSATA drive module to the XBRD 9060 SIGNAL SIGNAL NC NC NC NC NC NC NC NC GND SATA3 RX N SATA3 RX P GND GND SATA3 TX N SATA3 TX P GND GND 3 3V 3 3V GND NC NC NC NC NC NO CONNECT Acromag Inc Tel 248 295 1541 88 www acromag com XVME 6400 USER MANUAL 8 5 Power Requirements The power used by the XVME 9640 board without any mSATA modules installed is negligible mSATA power draws from the available 3 3V on the XVME 6400 Note 1 5V is NOT available but usage of this voltage on mSATA modules is not widespread 8 6 Environmental Considerations Operating Temperature 40 C to 75 C 1 Measured as Ambient Air Temperature 300LFM minimum air flow required Designed to meet this temperature specification Note Temperature rating is exclusive of mSATA module s Commercial grade mSATA modules are normally rated 0 C to 70 C Relative Humidity 596 to 9596 Non condensing Storage Temperature 55 C to 100 C Shock Non Operating 50g peak acceleration 11ms duration MIL STD 202G Method 213B Vibration Operating 11 96g RMS 50 20 000Hz each axis MIL STD 202G Method 214A Acromag Inc Tel 248 295 1541 89 www acromag com XVME 6400 USER
33. Acromag l4 THE LEADER IN INDUSTRIAL LO XVME 6400 Intel Ah Generation Core Single Slot VMEbus CPU Module USER S MANUAL ACROMAG INCORPORATED 30765 South Wixom Road Wixom MI 48393 2417 U S A Tel 248 295 1541 Fax 248 624 9234 Copyright 2015 Acromag Inc Printed in the USA Data and specifications are subject to change without notice 8501024C XVME 6400 USER MANUAL Table of Contents 1 0 GENERAL INFORMA TION Sansa 7 1 1 Intended Audience sissies es EES Se Ge ENEE EENS EE EEN de 7 LZ di EE EE OE EE OE EE EE OE ON 7 1 2 1 Trademark Trade Name and Copyright Information cccconccoooonnnncnnnononnnnnnncnononenocnnnnonnconenannnnnos 7 1 2 2 ClassA ge ee TEE H 1 2 3 Environmental Protection Statement 7 1 4 Product SUMMA 8 1 4 Related Material O 9 1 5 Ordering Information ia N RE OE SR RE GEN GE EG Ke BORS ii Ge GEGEE 9 1 6 Key Features and Benefits 6i scri EE ARE ERAS ed SE GN SU N RE ER AE N VERE dd GE ed es 10 1 6 1 Intel 4th Gen Haswell Core CRU 10 1 6 2 Intel QM87 Chipset Lynx Point PCH sesse se ee ee se ee ee ee ee ee ee ee enne ee ee ee ee ee ee ee ee ee ee ee Re ee ee ee 11 1 6 3 Intel 82580EB Quad Ethernet Controller ococccononococcnnncconononocnnnncnncnnonnnnnnnconnnnononnnnncnncnannnononons 11 1 6 4 Nuvoton NCT6106D Superi0 ee Re ee ee Ge Re ee ee nennen ee ee Re ee ee ee ancianas 12 1 6 5 Atmel AT97S E3204 TPM steer ese gesien ee E
34. All 64 pins of rear I O from the PMC XMC module s P4 connector are routed to the XVME 6400 s PO and P2 connectors Note the PO connector is optional and also carries 2 Gigabit Ethernet connections Two special build options are offered for the PO and P2 I O Instead of the 64 pins of rear I O from the lower site XMC module s P4 connector the PO connector can instead carry I O from the XMC module s P6 connector An option is also available to have the P2 connector s I O compatible with the XVME 6300 by giving up some of the PMC XMC I O normally available on the P2 connector Please consult the factory for these options In lieu of one PMC XMC module the optional XBRD 9060 I O Expander module may be installed to give more I O on the front panel as well as 2 SSD mSATA drives The module uses the IDT TSI 148 VME bridge on a dedicated PCI X bus to minimize VMEbus transfer times The module will function in either a 3 row with reduced I O or 5 row VMEbus backplane with or without a 3 3V backplane power supply reduced 5V amp 3 3V power are available to the PMC XMC sites when a 5V only power supply is available from the backplane The optional XVME 9640 Rear Transition Module is available to give easy access to all of the P2 connector s I O signals A two digit LED display is available for Power ON Self Test POST codes should a problem arise during the boot operation This display is available for application software user codes after POST
35. C coupled and needs level shifting to convert the AC coupled signals to the HDMI compliant digital signals The processor HDMI interface is designed in accordance with the High Definition Multimedia Interface with 3D 4K Deep Color and x v Color The information below is from Intel document No 328901 Mobile 4th Generation Intel Core Processor Family Datasheet Volume 1 of 2 Rev 002 September 2013 Acromag Inc Tel 248 295 1541 26 www acromag com XVME 6400 USER MANUAL HDMI and display port interfaces carry audio along with video e The processor supports two DMA controllers to output two high definition audio streams on two digital ports simultaneously e The processor supports only the internal HDMI and DP CODECs The processor will continue to support Silent stream Silent stream is an integrated audio feature that enables short audio streams such as system events to be heard over the HDMI and DisplayPort monitors The processor supports silent streams over the HDMI and DisplayPort interfaces at 44 1 kHz 48 kHz 88 2 kHz 96 kHz 176 4 kHz and 192 kHz sampling rates 3 6 3 Configuring the Primary Display To select a specific primary display refer to The APTIO Core BIOS Manual For Acromag Products 3 6 4 Configuring the Video Memory To configure the video memory refer to The APTIO Core BIOS Manual For Acromag Products 3 6 5 Video Display Options The XVME 6400 supports simultaneous independent displ
36. CPU module please select from and specify the available option choices A X as defined below e Select the connector option A v 1 With RJO P3 P4 J8 Installed Y 2 RJO P3 P4 J8 Not Installed e Select the solder option X Y L Leaded solder LF Lead free solder 8 2 Hardware Information and Configuration 8 2 1 Switch SW1 Configuration Table 8 2 1 a summarizes the functions settings and descriptions for dip switch SW1 Table 8 2 1 a Configuration Switch SW1 ME SEO Function Switch Setting Configuration Position p Switch SW1 1 Not Used ORB GND Tied to Digital ORB GND GND ORB GND Isolated SW1 4 is used to configure the isolation of the Front Panel ORB GND SW1 1 1 2 and 1 3 are not used and can be in either position for normal operation 8 3 mSATA Module Installation One or two full size 51mm mSATA modules may be installed using the screws provided In a high vibration environment the addition of a removable thread locker such as Loctite 242 is recommended For installation of half size 26 8mm mSATA modules please consult factory Acromag Inc Tel 248 295 1541 78 www acromag com XVME 6400 8 4 Specifications 8 4 1 Physical The XVME 9640 dimensions are shown below Height Depth Minimum Backplane Pitch Unit Weight with RJO P3 P4 J8 installed 8 4 2 Connector Information 8 4 2 1 RJO VME Connector Optional This optional connector is a standard 6 row 2mm T
37. DE lee sepe 36 3 16 3 PMC XMC JTAG InterfaceS ees ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee be ee tease ee ee be ee ee 37 3 16 4 XBRD 9060 I O Expander Module 38 3 16 5 Power Available to Expansion Module 38 3 17 VME M dn CT E 40 3 18 Front Panel vout ss ee si eo A Eege 40 4 0 FIRMWARE BIOS INFORMATION AND CONFIGURATION 41 4 1 XVME 6400 Special BIOS Features eese ecce eese eene eee en eene e nenne nnne nnns EEN 41 4 2 Drivers and Utilities oe Ee Se GE ESEG Qivuv seas GEREG ERG Ee Pu o tenso SEXES Ge Ge CREER AERE E FERE PEERS RETE 41 5 0 SERVICE AND REPAIR oett qiue aa 42 5 1 Service and Repair Assistance eceeeeeeeee eese ee eee eee ee eene ee nennen nnn etn ARE nnns EEN 42 5 2 Preliminary Service Procedure sides eks condenda senno EN KG ead saa ee nasa Ee oed xx rk ii en dE Ska e Ra 42 5 3 Where to Get CT BEE 42 6 0 SPECIEICATIONS geegent REDDE OUR Ud OA R DE Ge De DO MERE 43 MR dl RE deed di d OE EO NN EE ETE iia 43 Acromag Inc Tel 248 295 1541 3 www acromag com XVME 6400 USER MANUAL 6 2 Connector Information inertes opere ern ee dE Ee asa rayo see Padua de VEU GE SNR EN gee 43 62 1 J3 CPU XDP Debug Corinector ie oett E Re RARE e P eR MESURE See HERE ERR P RENTAL gege 43 6 2 2 J6 SPI BIOS Programming Header 43 6 2 3 Te 44 6 2 3 1 POVME Connector IOpttonalt entere ee ee ee ee RA ee Ge ee nnn 44 6 2 3 2 ATAY AAI AT
38. ECT 1ENET1 signals may instead be switched to XBRD 9060 I O Expander module if installed 2ENET1 SEL Auto switches ENET1 signals to XBRD 9060 when low Acromag Inc Tel 248 295 1541 59 www acromag com XVME 6400 6 2 6 Front Panel Connectors 6 2 6 1 J5 COM USB VGA Connector This standard 26 pin D SUB TE 5748481 5 connector brings 2 USB 1 VGA and 1 RS 232 Serial Ports out the front panel These can be accessed through standard connectors by using the supplied shielded dongle cable P N 4001128 USER MANUAL Note The DB 9 serial connector on this dongle cable is wired as a DTE port SIGNAL GND USBO P USBO N GND 5V USB VGA DC DAT VGA RED VGA GRN o o IND a BENE VGA BLUE GND USB1 P USB1 N GND 5V VGA VGA_12C_CLK GND_RED GND_GREEN GND_BLUE COM4_CTSH COM4_RTSH COM4_DSR COM4_DTR COM4_TXD COM4_RXD VGA_VSYNC Acromag Inc Tel 248 295 1541 VGA_HSYNC 60 www acromag com XVME 6400 6 2 6 2 J4 Dual Ethernet RJ Point 5 Connector This 16 pin RJ Point Five Connector TE 2170129 1 brings 2 Gigabit Ethernet ports out the front panel These can be accessed through standard RJ 45 connectors by using the supplied adapter cables USER MANUAL Note Patch cables of various lengths with RJ Point 5 connectors on one end and standard RJ 45 connectors on the other
39. ELE Ae N EEE mE EE ee pee 45 6 2 3 3 P2 VME Connector Standard UO 45 6 2 3 4 P2 VME Connector XVME 6300 Compatible 1 O Consult Factory for this Option 47 62 4 Lower PMC XMGSItE on SER Ee ee nee eden t Rae e Ern 48 6 2 4 1 J11 Lower PMC Site PCI X Connector nennen eene nenne de ee se 48 6 2 4 2 J12 Lower PMC Site PCLXConnector eene ener ennt ee nennen de ee se 49 6 2 4 3 J13 Lower PMC Site PCI X Connector eren nennen nre ee se 50 6 2 4 4 J14 Lower PMC Site Rear l O Connector eene nnne nnne Ge ee enn 51 6 2 4 5 J15 Lower XMC Site PCle Connector nennen eene nennen enne 52 6 2 4 6 J8 Lower PMC XMC Site JTAG Connector eene ener et tene ee 52 6 2 4 7 J16 Lower XMC Site Rear I O ConnecCtOF eene nnne tennis 53 6 2 5 Upper PME XMESIte is eed ve de see ee o chr e e Ee dera E See FE ES GR ke lena REPRE GR dee 54 6 2 5 1 J21 Upper PMC Site PCI X Connector nennen nennen nnne nennen nennen senes 54 6 2 5 2 J22 Upper PMC Site PCI X Connector nennen nennen enne nennen enne nene 55 6 2 5 3 J23 Upper PMC Site PCI X Connector enne nennen enne ens 56 6 2 5 4 J24 Upper PMC Site Rear I O Connector eene 57 6 2 5 5 J25 Upper XMC Site PCle Connector nennen eene enne nnne nnne nnne nns 58 6 2 5 6 J9 Upper PMC XMC Site JTAG Connector eese nre enne ens 58 6 2 5 7 J7 Upper PMC XMC Site Expansion Connector iese esse ee se ee ee ee Re ee ee RR ee ee Re ee ee 59 6 2 6 Front Panel Cofin EtOFS uie EER ee ttn erue eed Ee esse PUN des GR Ee Pe Bee e Ra SG ee ce u
40. ET1 MXO N ENET1 Mai P ENET1 MX1 N ENET1 MX2 P ENET1 MX2 Ni ENET1 MX3 P ENET1 MX3 Ni 1 ENET1 signals not available when enabled on XBRD 9060 I O Expander module Acromag Inc Tel 248 295 1541 83 www acromag com XVME 6400 8 4 2 8 J5 Upper PMC XMC User I O Connector This 68 pin SCSI 3 style TE 5787082 7 connector carries the PMC XMC module rear I O from the Upper PMC XMC site on the XVME 6400 SIGNAL UPR IOO P SIGNAL UPR IOO N UPR IO1 P UPR IO1 N UPR IO2 P UPR IO2 N UPR IO3 P UPR 103 N UPR IO4 P UPR IO4 N UPR_IOS P UPR OS N UPR Oe P UPR IO6 N UPR IO7 P UPR 107 N ojo NOV BYINE UPR OS P UPR IO8 N UPR IO9 P UPR IO9 N UPR IO10 P UPR 1010 N GND GND UPR IO11 P UPR IO11 N UPR 1012 P UPR 1012 N UPR 1013 P UPR 1013 N UPR IO14 P UPR IO14 N UPR IO15 P UPR 1015 N UPR l016 P UPR_IO16_N UPR_I017_P UPR_I017_N UPR_I018_P UPR IO18 N UPR lO19 P UPR 1019 N UPR 1020 P UPR 1020 N GND GND UPR IO21 P UPR 1021 N UPR 1022 P UPR 1022 N UPR 1023 P UPR 1023 N UPR 1024 P UPR 1024 N UPR 1025 P UPR 1025 N UPR 1026 P UPR 1026 N UPR 1027 P UPR 1027 N UPR 1028 P UPR 1028 N UPR 1029 P UPR 1029 N UPR 1030 P UPR 1030 N Acromag In
41. I O from the J24 connector routed to the VME P2 connector The Upper Site can instead be used with the optional XBRD 9060 I O Expander module The Lower Site can be used for a PMC or XMC module with the I O from the J14 connector routed to the VME PO connector if installed Note If one PMC and one XMC module are installed in the Expansion Sites the PMC module must be installed in the Upper Site Acromag Inc Tel 248 295 1541 12 www acromag com XVME 6400 USER MANUAL 2 0 PREPARATION FOR USE IMPORTANT PERSONAL AND PRODUCT SAFETY CONSIDERATIONS It is very important for the user to consider the possible safety implications of power wiring component sensor or software failures in designing any type of control or monitoring system This is especially important where personal injury or the loss of economic property or human life is possible It is important that the user employ satisfactory overall system design It is understood and agreed by the Buyer and Acromag that this is the Buyer s responsibility WARNING This board utilizes static sensitive components and should only be handled at a static safe workstation This product is an electrostatic sensitive device and is packaged accordingly Do not open or handle this product except at an electrostatic free workstation Additionally do not ship or store this product near strong electrostatic electromagnetic magnetic or radioactive fields unless the device is contai
42. LWR 1030 P LWR 1031 P LWR 1030 N LWR 1031 N 51 USER MANUAL www acromag com XVME 6400 6 2 4 5 J15 Lower XMC Site PCIe Connector This standard 114 pin Samtec ASP 103612 04 connector connects the PEG PCle interface from the CPU to the Lower XMC module ROW PIN a PEGO_RX_P PEGO_RX_N 3 3V PEG1_RX_P USER MANUAL PEG1_RX_N 5V GND GND NC GND GND PLT_RST PEG2 RX P PEG2 RX N 3 3V PEG3_RX_P PEG3_RX_N 5V GND GND JTAG_TCK GND GND NC PEG4_RX_P PEG4_RX_N 3 3V PEG5_RX_P PEG5_RX_N 5V GND GND JTAG_TMS GND GND 12V PEG6_RX_P PEG6 RX N 3 3V PEG7_RX_P PEG7_RX_N 5V GND GND JTAG_TDI GND GND 12V Oo IND BEN NC NC NC NC NC 5V GND GND JTAG_TDO GND GND GND GAO PEGO TX P PEGO TX N NC PEG1 TX P PEG1 TX N 5V GND GND GND GA1 GND GND NC PEG2_TX_P PEG2_TX_N NC PEG3 TX P PEG3 TX N 5V GND GND GND GA2 GND GND SMB_DATA PEG4_TX_P PEG4_TX_N NC PEG5_TX_P PEG5_TX_N 5V GND GND XMCA_WP GND GND SMB_CLK PEG6_TX_P PEG6_TX_N NC PEG7_TX_P PEG7_TX_N NC GND GND NC GND GND NC PEG_CLK_P NC NO CONNECT 6 2 4 6 J8 Lower PMC XMC Site JTAG Connector PEG_CLK_N
43. LWR_IO2_N LWR_IO3_P LWR 103 N GND 8 LWR On N LWR IO4 P LWR_104_N LWR_IO5_P LWR_IO5_N 9 LWR_IO8_P LWR_IO6_P LWR_IO6_N LWR 107 P LWR 107 N GND 10 LWR OS N LWR IO1 P LWR_I01_N LWR_109 P LWR_I09_N 11 LWR_1012 P LWR 1010 P LWR 1010 N LWR 1011 P LWR IO11 N GND 12 LWR 1012 N LWR 1025 N LWR 1025 P LWR 1013 P LWR 1013 N 13 LWR 1016 P LWR_I014 P LWR_1014_N LWR_1015 P LWR 015 N GND 14 LWR 1016 N LWR 1031 N LWR 1031 P LWR 1017 P LWR 1017 N 15 LWR 1020 P LWR 1018 P LWR 1018 N LWR 1019 P LWR IO19 N GND 16 LWR 1020 N LWR 1029 N LWR 1029 P LWR 1021 P LWR 1021 N 17 LWR 1024 P LWR 1022 P LWR 1022 N LWR 1023 P LWR 1023 N GND 18 LWR 1024 N LWR 1026 N LWR 1026 P LWR 1027 N LWR 1027 P 19 NC LWR 1030 N LWR 1030 P LWR 1028 N LWR 1028 P GND NC NO CONNECT 1 ENET1 signals may instead be switched to XBRD 9060 I O Expander module if installed Acromag Inc Tel 248 295 1541 44 www acromag com XVME 6400 USER MANUAL 6 2 3 2 P1 VME Connector This standard VME 5 row 160 pin Harting 02 01 160 2101 connector brings in power and VMEbus signals ROW PIN DOO BBSY DOS DO1 BCLR DO9 DO2 ACFAIL D10 DO3 BGOIN D11 DO4 BGOOUT D12 DOS BG1IN D13 DO6 BG1OUT D14 DO7 BG2IN D15 GND BG2OUT GND SYSCLK BG3IN SYSFAIL GND BG3OUT BERR DS1 BRO SYSRESET DSO BR1 LWORD WRITE BR2 AM5 GND BR3 A23 DTACK AMO A22 GND AM1 A21 ASH AM2 GND AM3 IACK GND IACKIN NC IACKOUT NC AM4 A07 A06 A05 A04 A03 A02 A01
44. MANUAL 8 7 XVME 9640 Certificate of Volatility Certificate of Volatility Acromag Model Manufacturer XVME 96400 X XX Acromag Inc 30765 Wixom Rd Wixom MI 48393 Volatile Memory Does this product contain Volatile memory i e Memory of whose contents are lost when power is removed Yes m No Type SRAM SDRAM etc User Modifiable Function Process to Sanitize none Yes No Non Volatile Memory Does this product contain Non Volatile memory i e Memory of whose contents is retained when power is removed m Yes No only with mSATA module s installed Type EEPROM Flash etc Size User Modifiable Function Process to Sanitize Flash mSATA m Yes Storage of User Data Refer to mSATA module module No documentation dependent Acromag Representative Name Title Email Office Phone Office Fax Joseph Primeau Dir of Sales solutions Qacromag com 248 295 0310 248 624 9234 and Marketing Acromag Inc Tel 248 295 1541 90 www acromag com XVME 6400 USER MANUAL Revision History The following table shows the revision history for this document EGR DOC Description of Revision 23 FEB 15 DWR ARP Initial Acromag release 08 JUN 15 DWR ARP Added Programmable Power Limits to Section 3 2 Revised Section 3 16 5 based on CPU Prog Power Limits Added MTBF info to Section 6 6 Changed name of referenced BIOS manual to APTIO Core BIOS Manual For Acromag
45. ORM CONTROLLER HUB LYNX POINT PCH CRT VIDEO SWITCH 1 6 1 Intel 4th Gen Haswell Core CPU Available as either a 2 4GHz quad core i7 or a 1 6GHZ dual core i5 This 64 bit 22 nanometer Haswell CPU with integrated GT2 graphics contains direct interfaces for DDR3L DDI and PCle x16 In addition the Direct Media Interface DMI is used to connect to the QM87 Platform Control Hub PCH DDR3L SDRAM Two SODIMM sockets support up to 16GB of DDR3L ECC at 1600MHz Dual channel mode is used with the two SODIMMs The SODIMMs are attached to the module firmly with screws and surrounded by heat sink material to provide a robust mechanism both mechanically and thermally PCle x8 2 Traditionally used for external graphics but on the XVME 6400 supports any PMC XMC devices One of the connections is muxed with a PEX8114 PCIe gt PCI X bridge for PMC vs direct XMC connection This bridge drives both PMC sites when enabled but the lower site may still contain an XMC module even if the PMC bridge is enabled DVI D This digital display interface supports connection of both DVI D or HDMI display devices Acromag Inc Tel 248 295 1541 10 www acromag com XVME 6400 USER MANUAL Programmable CPU power limits By simply programming a lower power limit in the BIOS setup the CPU can be used in applications where less power is available or
46. YE EY YEAR PN eege 78 8 3 mSATA Module Installation ooi reo ba Ge id 78 8 4 Specifications seks EG ek 79 84 1 Physical ceret E eere a ree eae GR de ee Ge Ge e Per E ETE ee Ee 79 84 2 Connector Information EE ER pe e eere Eee Gens deae RE EEN 79 8 4 2 1 RJO VME Connector Optional 79 984 2 2 RI2WME GOERENS ROUEN EE 80 8 4 2 3 JI VGA Connector ee rrr One Ee Ee EE MER e ie Y RE ERE E Even RE 81 8 4 2 4 I9USp70OConnector ENEE NENNEN 81 8 4 2 5 J3 USB 2 0 COrinectof ss EES EE Ee ES DE GE eunte heit daos 81 34 26 J7 DVIFD CONNECTOR OER ME RE EE EE EE ER IE OE 82 8 4 2 7 J8 Dual Ethernet RJ Point 5 Connector ees se ee ee ee AR ee AR Re ee ee AA innen nn 83 Acromag Inc Tel 248 295 1541 5 www acromag com XVME 6400 USER MANUAL 8 4 2 8 J5 Upper PMC XMC User I O Connector nne 84 8 4 2 9 P4 Lower PMC XMC User I O Connector Optional 85 8 4 2 10 P2 RS 232 RS 485 Serial Port 85 8 4 2 11 P3 Lower PMC XMC User I O Connector Optional 86 8 4 2 12 P1 Audio Connector 2e treo aeter lI ek Ge ek ee be ee bo conso ete Ee onse aaepe eee Re de 86 8 4 2 13 J6 MSATA Connector ene daane ieat ee ee en nete nete de ee nnne 87 8 4 2 14 J2 MSATA ConnecCtOF ENEE NENNEN 88 8 5 Power Requirements rerit ee EN oe SR eco ee ose Ya GESE Ee eene ne eee e e Dese ee GE n e 89 8 6 Environmental Considerations eese eese eese ee eene
47. able when enabled on XBRD 9060 I O Expander module Acromag Inc Tel 248 295 1541 79 www acromag com XVME 6400 USER MANUAL 8 4 2 2 RJ2 VME Connector This standard VME RTM 5 row 160 pin Harting 02 04 160 1101 connector brings in standard PC 1 O as well as the Upper Site s PMC I O Note The signals on the A and Z rows is not available when installed in a legacy 3 row backplane ROW PIN HA UPR IOO P SATA DO P AUD OUT R DVI PO P GND SATA DO N AUD OUT L DVI PO N UPR IOO N GND AUD GND GND GND SATA RX2 P AUD IN L DVI P1 P UPR IO1 P SATA RX2 N AUD IN R DVI P1 N GND UPR IO16 N UPR IO16 P GND UPR IO1 N SATA TX3 P UPR 1017 N DVI P2 P GND SATA TX3 N UPR 1017 P DVI P2 N Qo o ou w N UPR IO2 P UPR 1024 P VGA RED GND GND SATA RX3 P VGA GRN DVI CLK P UPR IO2 N SATA RX3 N VGA BLUE DVI CLK N GND UPR 1024 N VGA VSYNC GND UPR IO3 P USB P4 P VGA HSYNC DVI_HPD GND USB P4 N UPR IO18 N DVI SDA UPR_103_N UPR 1025 P VGA DC DAT DVI_SCL GND USB P5 P VGA DC CLK UPR OS P UPR IO4 P USB P5 N UPR lO18 P UPR IO8 N GND UPR 1025 N COM2_TX UPR_IO9 P UPR IO4 N USB 45V COM2 DE UPR IO9 N GND USB 45V UPR 1019 N UPR 1010 P UPR os P UPR 1026 P COM2_RX UPR_IO1R_N
48. aneously on a single system Intel VT comprises technology components to support virtualization of platforms based on Intel architecture microprocessors and chipsets The first revision of this technology Intel VT x added hardware support in the processor to improve the virtualization performance and robustness The second revision of this specification Intel VT d adds chipset hardware implementation to improve I O performance and robustness The Intel VT x and VT d features are enabled by default For further information on disabling support for this technology refer to The APTIO Core BIOS Manual For Acromag Products Acromag Inc Tel 248 295 1541 31 www acromag com XVME 6400 USER MANUAL 3 13 4 Intel Trusted Execution Technology TXT The featured Intel Trusted Execution Technology attests to the authenticity of a platform and its operating system and assures that an authentic OS starts in a trusted environment and can be considered a trusted OS Intel TXT works in conjunction with the TPM so that the system software may make trust decisions The Intel TXT feature is enabled by default For further information on disabling support for this technology refer to The APTIO Core BIOS Manual For Acromag Products 3 13 5 Intel Turbo Boost Technology The number of active cores determines the maximum processor core operating frequency See Section 3 3 1 Active Processor Core Selection for information and instructions N
49. are available from TE and Stewart Connector SIGNAL ENET2 Map P ENET2 MXO N ENET2 MX1 P ENET2 MX1 N ENET2 Mai P ENET2 MX2 N ENET2 MX3 P ENET2 MX3 N ENET3 Man P ENET3 MXO N ENET3 MX1 P ENET3 MX1 N ENET3 MX2 P ENET3 MX2 N ENET3 MX3 P 6 2 7 P3 CPU Fan Connector ENET3 MX3 N This 5 pin connector Molex 53398 0571 can be used to power a 5V fan in situations where more cooling is necessary SIGNAL NO CONNECT FAN TACH GND FAN PWM Acromag Inc Tel 248 295 1541 5V 61 www acromag com XVME 6400 USER MANUAL 6 3 P2I O Signal Requirements This section provides the information necessary to interface with the P2 I O signals without using a XVME 9640 RTM module 6 3 1 VGA For proper operation of the VGA display 150ohm termination to GND is required on the CRT REAR RED CRT REAR GREEN and CRT REAR BLUE signals Failure to apply this termination may result in poor display quality and improper operation of Intel HD Graphics control panel in Windows Also for proper monitor detection the REAR DDC CLK and REAR DDC DATA lines should be level shifted to 45V See the following for suggested interface schematic Ds FU K s o SR TT vore BE Tp P EE Se dE Lom A re tpm 5 g se p p T y gt
50. ays on the VGA and DVI D ports Display mode choices when using multiple monitors include e Single display in which one port is activated to display the output on one device e Clone mode in which the same content resolution and color depth are sent to up to three display devices Different refresh rates may be used on each display e Extended desktop in which a larger Windows desktop spans up to three display devices The displays can support different refresh rates resolutions and color depth 3 7 Intel High Definition Audio The XVME 6400 uses Intel High Definition Audio thru an ALC892 Audio CODEC to provide both stereo line in and stereo line out connections Enabling and configuring the HDA is discussed in The APTIO Core BIOS Manual For Acromag Products 3 8 SATA SATA Serial Advance Technology Attachment is the interface that connects the PCH to the supported mass storage devices see below Independent operation is achieved with the two integrated SATA host controllers on the PCH using the four SATA 3 0 ports The SATA features support Acromag Inc Tel 248 295 1541 27 www acromag com XVME 6400 3 9 GeneralI O 3 9 1 SMBus and I2C Table 3 9 1 a SMBus Address Table 3 9 2 Low Pin Count LPC 3 9 3 Serial Ports USER MANUAL The SATA hard disk drives solid state drives SSD and CD ROM DVD ROM drives IDE AHCI and RAID 0 1 5 and 10 modes Data transfer rates of up to 6 0Gbps ports on
51. c Tel 248 295 1541 UPR 1031 P 84 UPR 1031 N USER MANUAL www acromag com XVME 6400 8 4 2 9 P4 Lower PMC XMC User I O Connector Optional This optional 40 pin connector Samtec QTH 020 01 F D DP A K carries the PMC XMC module rear I O from the Lower PMC XMC site on the XVME 6400 SIGNAL UPR IOO P SIGNAL UPR IO10 P UPR IOO N UPR_IO10_N UPR IO1 P UPR IO11 P UPR IO1 N UPR IO11 N UPR IO2 P UPR 1012 P UPR IO2 N UPR 1012 N UPR 103 P UPR 1013 P UPR 103 N UPR 1013 N UPR OS P UPR IO9 P UPR IO8 N UPR IO9 N UPR 1O20 P UPR IO21 P UPR 1020 N UPR 1021 N UPR 1022 P UPR 1023 P UPR 1022 N UPR 1023 N UPR 1024 P UPR 1O25 P UPR 1024 N UPR 1025 N UPR 1026 P UPR 1027 P UPR 1026 N UPR 1027 N UPR 1028 P UPR 1029 P UPR 1028 N 8 4 2 10 P2 RS 232 RS 485 Serial Port This 10 pin standard 0 1 header TE 5103310 1 is used for the COM2 serial connection These signals can be accessed through a standard DB 9 connector Acromag Inc Tel 248 295 1541 by using a DB9M TO IDC10 SERIAL DTK cable SIGNAL NC UPR 1029 N SIGNAL COM3_RX COM3_RX NC COM3_TX NC COM3 TX NC 1 1 3 5 7 9 T GND 85 X and RX only used when serial port is in RS 422 RS 485 mode USER MANUAL www acromag com XVME 6400 8
52. cal and electrical VMEbus backplane specifications of VME64X The XVME 6400 is available both with and without a PO connector Without PO would normally be required for a legacy system that contains a stiffener bar in that location In order to have access to some of the listed P2 I O and to supply enough power for the i7 4700EQCPUit is recommended that a backplane with 5 row 160 pin P1 and P2 connectors be used Note When used in a legacy system with 3 row 96 pin P1 and P2 connectors only the i5 4402E CPU is supported WARNING Never install or remove any boards before turning off power to the bus and all related external power supplies 1 Disconnect all power supplies to the backplane and the card cage Disconnect the power cable Make sure backplane connectors P1 and P2 are available Verify that all DIP switch settings are correct Verify that the card cage slot is clear and accessible gr Be e fe Install the XVME 6400 in the card cage by centering the unit on the plastic guides in the slots P1 connector facing up Push the board slowly toward the rear of the chassis until the P1 and P2 connectors engage The board should slide freely in the plastic guides WARNING Do not use excessive force or pressure to engage the connectors If the boards do not properly connect with the backplane remove the module and inspect all connectors and guide slots for damage or obstructions 1 Secure the module to the chassis by tigh
53. ces The DVI D port available on the rear VME P2 connector will support the connection of either an HDMI or DVI display device It can support 2 97 GT s with resolution up to 4096x2304 at 24 Hz or 2560x1600 at 60Hz using single link HDMI and up to 1920x1200 at 60Hz using single link DVI The processor supports High bandwidth Digital Content Protection HDCP for high definition content playback over digital interfaces The processor also integrates a dedicated Mini HD audio controller to drive audio on an HDMI connection The HD audio controller on the PCH would continue to support down CODECS and so on Acromag Inc Tel 248 295 1541 25 www acromag com XVME 6400 3 6 2 1 DVI 3 6 2 2 HDMI 3 6 2 3 Integrated Audio USER MANUAL A Digital Visual Interface DVI transmits uncompressed digital audio and video signals from AV sources to video display devices The DVI interface originates from the CPU and supports DVI D digital only The DVI interface utilizes transition minimized differential signaling TMDS to transmit audio video and auxiliary control status data information through the DVI cable The BIOS will automatically detect installed devices that are using DVI interfaces and will automatically configure the installed devices according to the video BIOS settings For further information regarding BIOS device configuration BIOS refer to Section 4 0 BIOS Information and Configuration The information belo
54. der Windows 8 1 with Passmark BurnInTest V7 1 running CPU Memory and 3D Graphics tests simultaneously During application testing CPU temp should be closely monitored for max junction temp of 100 C using a program such as Argus Monitor or Open Hardware Monitor Measured at junction of XVME 6400 s conduction rail and the conduction chassis Board mounted in ARCX conduction enclosure Every board sold tested to ensure this temperature specification Tested under Windows 8 1 with Passmark BurnInTest V7 1 running CPU Memory Disk and 3D Graphics tests simultaneously During application testing CPU temp should be closely monitored for max junction temp of 100 C using a program such as Argus Monitor or Open Hardware Monitor Note CPU frequency throttling will occur if the CPU Tj temperature reaches 100 C This is an effective mechanism to keep the unit from overheating A small amount of intermittent throttling at higher ambient temperatures is to be expected and does not greatly affect system performance For systems that need maximum performance at higher ambient temperatures and can handle the XVME 6400 consuming an extra slot a larger heatsink is available as an accessory Consult factory for more information WARNING If airflow is not adequate throttling can reach maximum and Tj temperature could exceed 100 resulting in system instability This temperature should be monitored in end user system with user application software running
55. e RE ba eege dne den 60 6 2 6 1 J5COM USB VGA Connector entera aret be ee eset nn nr ee ee aret ee 60 6 2 6 2 J4 Dual Ethernet RJ Point 5 Connector eee enne enne en 61 6 27 P3 CPU Fan Connector onere Rer EIER ome Ret eee ree da 61 6 3 P21 O Signal Requirements cccccccccssssssssescececcccccanssseceececcececacessceeececceeeeauesesens 62 Dich Me EE OE RE EE EE N IE OE EN 62 E E EE ER UR RE AE RE EO NE DOE N ed 62 lt is strongly suggested that ESD protection be included in interface circuitry on the VGA and USB ports Failure to do so may cause damage the XVME 6400 in the event of an ESD discharge into the I O pins 62 6 4 Power Requirembents es GE gee to se rea doors ie erae Ee BERNS EE 63 6 5 Environmental Considerations e EE EE AA EE EE EE EE Ee nennen nnne nnn ns KREE EEN 64 6 6 Reliability Prediction eroi GE e Gen ee Leak Erano guo A EK Rud Sika Fa 65 6 7 XVME 6400 Certificate of Volatility eeeee eese eene ee eene enne eene nnne nnne nnn 66 7 0 XBRD 9060 I O EXPANDER ACCESSORY MODULE sesse se se se en nnn 67 Acromag Inc Tel 248 295 1541 4 www acromag com XVME 6400 USER MANUAL 7 1 Ordering Information aoo sed olan A ee 67 7 2 Hardware Information and Configuration Lcceeeee ecce eese KEEN eene nennen nennen 68 7 2 1 Switch SW1 Configuration eene eene ennt nna ness ener tra ee Ee ke ee ee 68 7 3 mSATA Module Installation
56. e power level PL1 up to a maximum of PL2 allowing a significant performance boost for short workloads If the CPU power remains above PL1 Acromag Inc Tel 248 295 1541 21 www acromag com XVME 6400 USER MANUAL at the end of this time the power is then limited back to PL1 The power must drop below the PL1 limit before it allowed to increase back to PL2 again For time spent above PL1 an equivalent amount of time must be spent below PL1 in order for it to rise again to PL2 The maximum time could be as much 2 5x the value of PL1 Time The default values for each CPU are as follows CPU PL1 PL2 Tau 17 4700EQ 47W 59W 28 seconds 15 4402E 25W 31W 28 seconds PL1 and PL2 can be programmed in watts to any value below the default Entering a value above the default will result in the default value being used Entering 0 also results in the default value being used PL1 Time can be programmed to any number of seconds up to 256 however it is recommended by Intel to always use the default value of 28 This value maximizes the effectiveness of the short term performance boost while ensuring that the life of the part is not jeopardized by spending too much time above PL1 See Section 3 16 5 for guidance on what limits should be used in conjunction with the installed PMC XMC modules More details about programming these power limits using the BIOS setup utility are provided in The Acromag Core BIOS Manual 3 2 3 Power Management The XVME
57. ed to configure the driving of VME SYSRST when a local reset happens on the XVME 6400 SW6 4 is used to configure the behavior of the XVME 6400 when a VME SYSRSTH is driven onto the backplane from some other module When this switch is off the VME SYSRSTH signal is isolated from the XVME 6400 and does not reset the VME resources of the TSI 148 VME bridge Acromag Inc Tel 248 295 1541 19 www acromag com XVME 6400 USER MANUAL 3 1 6 VME Configuration Switch SW7 Table 3 1 c VME Configuration Switch SW7 Table 3 1 f summarizes the functions settings and descriptions for dip switch SW7 VME Configuration Switch SW7 Position Function Switch Setting SFAILEN BIT VME SYSFAIL Not Driven POWER UP SFAILO is Auto Negated SFAILO Negated when SFAILAI Cleared SFAILAI BIT AUTO CLEAR SW7 is used to configure the default state of the System Failure Enable SFAILEN bit and the System Failure Auto Slot ID SFAILAI bit auto clear The SFAILEN bit controls the assertion of the VME SFAIL signal The SFAILAI bit is used when the Auto Slot ID protocol is enabled in the system to assign the CR CSR address When Auto Slot ID is used to assign the CR CSR base address the SFAILAI bit is set by the assertion of the SRSTI_ signal The SFAILAI bit must be cleared in order for Tsi148 s System Fail Output SFAILO signal to be negated SFAILO is automatically negated if the VCFG2 jumper is in the 1 2 position Other
58. ede nep en ere etes bd Ronin Ope on e e pd ip an peu ee ERE eR even be ERE be ai 22 32351 EE E EE 22 3 2 32 APCI Processor States EE Ee EED EE NEEN oen paar eae deed bode aee pae e esae dd 22 3 3 CPU EE 23 33 1 Active Processor Core SelectiQn ir D ee AO E A Rek Ee ge 23 33 2 Turbo Boost CONTIG ULATION iss SE ee BE SEER ee e eee need ee dee Ge BE te 23 3 3 3 PCI Express Graphies PEG Ee re eR ERE ERE REC EE 23 3 4 Platform Controller Hub PCHY 1 reseau no sesse sk na sesde ono nane se eks See eek SE es pur va n dee Eug 24 3 5 System Memory AA ER EE EE EE OE EE 25 3 6 De RE AR EE EE EN EE EE EE ER ST XR EN 25 EA TA WGA EA 25 3 6 2 Digital Display Interfaces iere RE GE Ee EE NE eren eee ee need een N Ge gea vn ee EG iE 25 3 6 2 1 ER EE OE EE OE OE OO OE EE Ee 26 3 6 22 ADM pos 26 3 6 2 3 Integrated Audio OR 26 3 6 3 Configuring the Primary Display csie aeaaaee i aiiai 27 3 6 4 Configuring the Video Memorn eene eren Ee Ee Re ee ee nete nass sies entrada assess en ee 27 3 6 5 ERSTEN 27 3 7 Intel High Definition Audio EE 27 3 8 SATA EEr E 27 CAELIS 28 3 9 1 SMBUS and NK 28 3 9 2 Low Pin Count LPC iret ere aii 28 A oa 28 EE US OR RE EE EE AE EE EE ER EE A 29 3 10 Gigabit Ethiernet ore coire tron Ge ed we ENEE GE eds Ge eg Gee AE EE ENEE LEE RENE ERE Nro AE GE RE 29 3 11 Battery Powered Real Time Clock RTC cccscccccssssssssssscececcccccacsssssseeceesececacesseess 30 Ek WT Th
59. ee eene enhn enhn nnns ERKENNEN 89 8 7 XVME 9640 Certificate of Volatility eee eese eee eene eene enne nennen nnne nnne nnne 90 REVISION TRUS TOR 91 Acromag Inc Tel 248 295 1541 6 www acromag com XVME 6400 USER MANUAL 1 0 GENERAL INFORMATION 1 1 Intended Audience 1 2 Preface This users manual was written for technically qualified personnel who will be working with systems incorporating the XVME 6400 CPU It is not intended for a general non technical audience that is unfamiliar with VMEbus devices and their application The information contained in this manual is subject to change without notice and Acromag Inc Acromag does not guarantee its accuracy Acromag makes no warranty of any kind with regard to this material including but not limited to the implied warranties of merchantability and fitness for a particular purpose Further Acromag assumes no responsibility for any errors that may appear in this manual and makes no commitment to update or keep current the information contained in this manual No part of this manual may be copied or reproduced in any form without the prior written consent of Acromag 1 2 1 Trademark Trade Name and Copyright Information O 2015 by Acromag Incorporated All rights reserved Acromag and Xembedded are registered trademarks of Acromag Incorporated All other trademarks registered trademarks trade names and service marks are the property of their
60. g com XVME 6400 USER MANUAL e HDA Audio The HDA audio port is connected to an ALC892 high definition audio codec Analog stereo line in and line out ports are available on the VME P2 connector e SMBUS This I2C compatible System Management Bus has connections to the memory DIMMs the XMC connectors and also to an onboard EEPROM for module identification 3 5 System Memory XVME 6400 COM Express modules have two 204 pin right angle SO DIMM sockets J1 J2 to accept DDR3L ECC SDRAM modules At least one SDRAM module is required to make the system operational Note that ECC x72 SODIMM modules are required Non ECC modules x64 are not supported Support for the following features is provided by the system memory interface e DDR3 SDRAM with transfer rates of 1600 MT s e 1GB 2GB 4GB and 8 GB DDR3 SDRAM densities e 72 bit wide channels 64 bits plus 8 bits of ECC 3 6 Video 3 6 1 VGA The XVME 6400 COM Express module uses the Intel Lynx Point controller to support the analog VGA interface The VGA interface features include e Integrated 180 Mhz 24 bit RAMDAC e Support for analog monitor resolutions up to 1920x2000 260 Hz The VGA port is available on either the front panel s 26 pin connector or via the rear VME P2 connector Only one port may be used at a time It should auto switch when a monitor is plugged in but if it does not it can be configured with DIP switches SW2 3 amp SW2 4 3 6 2 Digital Display Interfa
61. g eed ede bei oe dd oe sd ee EEN de oe eg eed ees dee vk ed N de e 12 1 6 6 IDT TSI 148 PCI X to VME Bridge 12 1 6 7 Expansion Sites rci ener dek ee ee nia bie EV e an e EU Se oe GEN es ede Die ge Po Te de Dee Re e EP ENEE ee ee ee ede 12 2 0 PREPARATION FOR USE see eene ee es se ene Beek RR Beek RR BEER RR BEER RR RE ERK RR SEER RR sunu RR BEER RR DEER RR RE EE 13 2 1 Unpacking and Inspecting siese ies ee ee Ee AN Ge eese Ge AA GE ee ee AA Ge AA Ge Ge ee 13 2 2 Installing into a Backplane sd N SE OE T 14 3 0 HARDWARE INFORMATION AND CONFIGURATION ees esse ee nss en ke seen ke Be ee ee 15 3 1 Module Hardware Switch Configuration ss sesse ee ss see ss ee Ge ee ee e enne nnne Ge Ge ee 16 3 1 1 Core Configuration Switch ST 16 3 1 2 Core Configuration Switch SW 17 3 1 3 VME Configuration Switch SA 18 3 1 4 JTAGVREF Configuration Switch SW 18 3 1 5 VME Configuration Switch SW ese ee ee ee ee se ee ee Ge Ee Re ee ee Ee Ee Ee Re ee ee Ee Ee ke nans AA ee Ee rasan ee sana gan 19 3 1 6 VME Configuration Switch SW 20 3 2 Power Supply and Management 1 ee AA Ge AA Ge ee ee AR Ge AA Ge Ge ee 20 Acromag Inc Tel 248 295 1541 1 www acromag com XVME 6400 USER MANUAL 3 2 1 Power OptlOns EE Se E verse red ves n SEENEN en cat esie ne de 20 3 2 2 Programmable CPU Power Limits aeiee r eene Ee Ee Ee Re nenne tnn AA ener tiran asserta an 21 3 2 3 Power Management ie ded nee epe nen
62. gnal differences remain from those on the XVME 6300 The highlighted pins below show the pin differences from the standard XVME 6400 I O ROW PIN A C D 6 GND NC 7 NC 8 GND 9 GND 12 GND 14 GND 15 GND 16 GND 17 GND NC 18 GND NC 19 NC 20 GND NC GN GND D 21 D 23 COMI RTSH TX GN 0 3 GPOUT2 31 GPOUT3 32 NC NO CONNECT 1 TX and RX only used when serial ports is in RS 422 RS 485 mode RTS and DSR are available in RS 232 mode Acromag Inc Tel 248 295 1541 47 WWW acromag com XVME 6400 USER MANUAL 6 2 4 Lower PMC XMC Site 6 2 4 1 J11 Lower PMC Site PCI X Connector This standard 64 pin Molex 71439 0164 connector interfaces the PCI X bus to the Lower PMC module SIGNAL SIGNAL JTAG_TCK GND INTCH NC INTAH NC GND NC CLK PCI GND GND GNT1 REQ 5V 3 3V AD 31 AD 28 AD 27 AD 25 GND GND C BE 3 AD 22 AD 21 AD 19 5V 3 3V AD 17 FRAME GND GND IRDY DEVSEL 5V PCIXCAP PU to 3 3V NC NC PAR GND 3 3V AD 15 AD 12 AD 11 AD 9 45V GND C BE 0 amp AD 6 AD 5 AD 4 GND 3 3V AD 3 AD 2 AD 1 AD 0 45V GND REQ64 NC NO CONNECT PU PULLUP Acromag Inc Tel 248 295 1541 48 www acromag com XVME 6400 6 2 4 2 J12 Lower PMC Site PCI X Connector Acromag Inc Tel 248 295 1541 SIGNAL 12V SIGNAL NC
63. here is headroom from the maximum Thermal Design Power of the CPU This results in the highest available performance but with a larger more dynamic power draw during peak operations More details about this feature are provided in The APTIO Core BIOS Manual For Acromag Products 3 3 3 PCI Express Graphics PEG The x16 PEG interface is bifurcated into 2 x8 general PCle ports that connect the Intel 4 Gen Haswell processor to the PMC XMC Expansion Sites Lanes 0 7 connect directly to the Lower XMC Site s J15 connector Acromag Inc Tel 248 295 1541 23 www acromag com XVME 6400 USER MANUAL Lanes 8 12 are muxed between the lower 4 lanes of the Upper Sites s J25 connector and the PEX8114 PCle to PCI X Bridge that is used to drive the PMC bus This mux should switch automatically to XMC when an XMC module is installed into the Upper Site If it does not this can be overridden with DIP Switch SW2 2 Lanes 13 16 connect to the upper 4 lanes of the Upper Site s J25 connector The PEG interface meets the PCI Express Base Specification Revision 3 0 and supports Low Swing low power low voltage and Full Swing operating modes Static lane numbering reversal The Gen3 8 GT s PCI Express frequency not supported by XMC connectors 3 4 Platform Controller Hub PCH The Intel 8 Series QM87 Lynx Point PCH provides extensive I O support as listed below Acromag Inc Tel 248 295 1541 PCle x4 2 There are
64. hrottling 3 14 2 1 CPU Throttling Hardware Controlled The processor must not exceed the 100 C maximum junction temperature Tj When the integrated thermal monitor on the processor determines that the maximum processor temperature has been reached the CPU clock speed will be throttled back in 100MHz increments to keep Tj from exceeding the maximum junction temperature of 100 C If throttling is not enough to keep the processor s Tj below the catastrophic temperature limit of 105 C the voltage supply to the processor will be turned off within 500ms to prevent permanent silicon damage 3 14 2 2 Thermal Management OSPM Controlled In addition to the hardware throttling described above software controlled passive trip points may be configured using the system BIOS setup For information on how to configure these trip points refer to The APTIO Core BIOS Manual For Acromag Products 3 14 3 Memory Throttling The memory bandwidth can be throttled back automatically if a thermal sensor is on the DIMM The NCT6776D will alert the memory controller via PECI when the system memory exceeds its normal operating temperature For further information on configuring the memory bandwidth throttling based on temperature readings from the DIMM s thermal sensor refer to The APTIO Core BIOS Manual For Acromag Products 3 14 4 Thermal Management Hardware The XVME 6400 is available in either air cooled or conduction cooled varieties Air cooled a
65. ill be turned off When the BIOS completes the POST the green PASS LED is turned on e USER LEDs The USER LEDs are accessible by user software See Section 4 for more information e ETHERNET LINK ACTIVITY LEDs For each Ethernet port the top LED shows the port is LINKed while the bottom LED indicates ACTIVITY e RESET Switch The front panel switch can be configured to cause a local reset and also may reset the VME backplane depending on the configuration of SW1 1 and SW6 3 Acromag Inc Tel 248 295 1541 40 www acromag com XVME 6400 USER MANUAL 4 0 FIRMWARE BIOS INFORMATION AND CONFIGURATION 4 1 XVME 6400 Special BIOS Features This section contains information on configuring features specific to the XVME 6400 For other more generic BIOS setup information refer to The APTIO Core BIOS Manual For Acromag Products To access the XVME 6400 specific items in the BIOS setup select the Acromag menu item e AVENE Setup Utility Copyright K 2015 American Megatrends Inc Fig 4 1 a Main Advanced Chipset Security Boot Save amp Exit Acro Acromag BIOS Setup Menu M chi hip ice TSI 148 Memory 1 M8 y LL Version 2 17 1249 Copyright C 2015 American Megatrends Inc e The GPOO 3 default output levels can be configured Note that these outputs are only available with the XVME 6300 Compatible I O build option e The default output levels of the front panel User LEDs can be configured The LED is on when the o
66. keeps track of the time of day and e It stores system data even after powering down the system To clear the RTC and CMOS RAM settings remove battery BT1 from the socket for 10 seconds and reinstall The battery can be replaced with a standard CR1225 battery Note If the battery has been removed the RTC voltage drops below 2 5V or when a BIOS update has been done the first time the system is powered on it may partially boot and then restart up to two times This behavior is normal 3 12 Security 3 12 1 Trusted Platform Support The XVME 6400 uses the Atmel AT97SC3204 fully integrated security module which implements version 1 2 of the Trusted Computing Group TCG specification for Trusted Platform Modules TPM The TPM includes a cryptographic accelerator capable of computing a 2048 bit RSA signature in 200ms and a 1024 bit RSA signature in 40ms Performance of the SHA 1 accelerator is 20us per 64 byte block 3 12 2 Password Control You are able to specify e An Administrator password with full control and e A User password with limited access to the BIOS settings For further information on setting the password refer to The APTIO Core BIOS Manual For Acromag Products Acromag Inc Tel 248 295 1541 30 www acromag com XVME 6400 USER MANUAL 3 13 System Management 3 13 1 Intel Hyper Threading Technology Note The following information is from Intel document No 328901 Mobile 4th Generation Intel Core
67. les must be used on conduction cooled models of the XVME 6400 3 16 3 PMC XMC JTAG Interfaces Some PMC XMC modules may utilize JTAG connections for FPGA programming or other module debug activities Individual JTAG connections are available for each site through the use of a Molex 78171 5006 6 pin micro connector J8 is used for connection to the Lower Site while J9 is used for connection to the Upper Site Adapter cables the connect between J8 J9 and a Xilinx USB programmer are available Please consult factory for more information VREF voltage on the connector can be selected as either 2 5V or 3 3V using switch SW5 Acromag Inc Tel 248 295 1541 37 www acromag com XVME 6400 USER MANUAL 3 16 4 XBRD 9060 I O Expander Module The optional XBRD 9060 module may be installed in the Upper Site of an air cooled XVME 6400 to bring more I O to the front panel as well as allow mSATA SSD modules to be added for storage The following I O is available on the front panel of the XBRD 9060 e One Gigabit Ethernet port via a standard RJ 45 connector When this port is enabled on the XBRD 9060 module one of the Ethernet ports on the PO connector is disabled e One RS 232 serial port This port only contains TX RX signals It is brought out on a mini USB B connector but an adapter cable is included with the module for connection using a standard DB 9 connector e Two USB 2 0 ports These ports use standard USB A connectors and can o
68. lowing serial ports e One RS 232 only including RTS CTS DTR and DSR control lines Available on the front panel s 26 pin connector e One RS 232 RS 422 RS 485 software selectable TX RX signals only Available on the VME P2 connector e One RS 232 only TX RX signals only Routed to the Expansion Site connector to make the port available on the front panel via the optional XBRD 9060 1 6 5 Atmel AT97SC3204 TPM The Atmel AT97SC3204 is a fully integrated security module that implements version 1 2 of the Trusted Computing Group TCG specification for Trusted Platform Modules TPM The TPM includes a cryptographic accelerator capable of computing a 2048 bit RSA signature in 200ms and a 1024 bit RSA signature in 40ms Performance of the SHA 1 accelerator is 20us per 64 byte block 1 6 6 IDT TSI 148 PCI X to VME Bridge The TSI 148 is a high performance VMEbus bridge that is fully compliant with the 2eSST and VME64 Extension standards This allows the XVME 6400 to take advantage of the higher performance VME protocols but sill co exist with VME boards utilizing legacy protocols 1 6 7 Expansion Sites There are two expansion sites available on the XVME 6400 referred in this manual as the Upper Site and the Lower Site The Upper Site is at the top of the XVME 6400 when installed vertically in a VME chassis The Lower Site is in the middle of the board adjacent to the CPU heatsink The Upper Site can be used for a PMC or XMC module with the
69. ly function at USB 2 0 or lower speeds There is no USB 3 0 superspeed signal connection SIGNAL 5V USB POWER USB3 N USB3 P GND NC NC NC Acromag Inc Tel 248 295 1541 1 2 3 4 5 6 7 8 9 NC 72 www acromag com XVME 6400 7 5 2 7 J1 mSATA Connector USER MANUAL This standard 52 pin mSATA connector TE 2041119 1 is used for connecting an mSATA drive module to the XBRD 9060 SIGNAL NC SIGNAL NC NC NC NC NC NC NC NC NC NC NC GND NC NC GND PLT RSTH SATAO RX N 3 3V SATAO_RX_P GND GND 1 5V GND SMB_CLK SATAO_TX_N SMB_DATA SATAO_TX_P GND GND NC GND NC 3 3V 3 3V NC GND NC NC NC NC NC NC NC NO CONNECT Acromag Inc Tel 248 295 1541 73 www acromag com XVME 6400 7 5 2 8 J6 MSATA Connector USER MANUAL This standard 52 pin mSATA connector TE 2041119 1 is used for connecting an mSATA drive module to the XBRD 9060 SIGNAL NC SIGNAL NC NC NC NC NC NC NC NC NC NC NC GND NC NC GND PLT RSTH SATA1 RX N 3 3V SATA1_RX_P GND GND 1 5V GND SMB_CLK SATA1_TX_N SMB_DATA SATA1_TX_P GND GND NC GND NC
70. mal operation SW1 4 is used to configure the operation of the onboard 3 3V regulator When the switch is OFF the onboard 3 3V regulator is automatically enabled whenever 3 3V is not detected on the backplane Setting this switch to ON forces the onboard 3 3V regulator to be enabled always Acromag Inc Tel 248 295 1541 16 www acromag com XVME 6400 USER MANUAL 3 1 2 Core Configuration Switch SW2 Table 3 1 b Core Configuration Switch SW2 Table 3 1 b summarizes the functions settings and descriptions for dip switches SW2 1 thru SW2 4 Core Configuration Switch SW2 Position Function Switch Setting PMC Bus Speed OFF 100 50 25MHz Override ON 133 66 33MHz BEE Upper Site XMC PMC XMC Select Autodetect Override ON Upper Site Force XMC OFF OFF Force Rear VGA Port Enable Monitor OFF ON Force Front VGA Port Enable Auto Detect Override ON OFF VGA Port Auto Detect ON ON Force Front VGA port Enable SW2 1 is used to override the automatic selection of the PMC bus speed When the switch is on the bus speed is automatically selected at 133 66 33MHz When the switch is off the speed is overridden as follows 133MHz normal bus speed will slow down to 100MHz 66MHz normal bus speed will slow down to 50MHz 33MHz normal bus speed will slow down to 25MHz Note that with two 133MHz PMC modules installed there may be instability unless the bus speed is slowed down to 100MHz as recommended by VITA 39 SW
71. mmended system for the XVME 6400 3 2 2 Programmable CPU Power Limits The XVME 6400 features programmable power limits allowing the user to dial down the maximum power consumption of the CPU in systems where power is a concern The graph below shows that the i7 4700EQ CPU outperforms other available embedded Intel CPU s at every power point from 5W 47W even the i5 4402E which can also use the programmable power limits Ce i7 4700EQ 5 47W 15 4402E 15 25 17 3612QE 35W 8 i7 3615E 45W CPU Mark i7 3517U0E IT WY Atom E3845 10W Power Rating or Throttle Setting W By simply programming a lower power limit in the BIOS setup the CPU can be used in applications where less power is available or heat removal is an issue This is accomplished by the CPU automatically underclocking its frequency to maintain a power level at the set limit Note Once the minimum frequency of 800MHz is reached the programmed limit could be exceeded Extremely large workloads have a realistic minimum power of around 20W However light to medium workloads can effectively maintain a power limit as low as 5 10W There are two programmable CPU limits These are the long term average Power Limit 1 PL1 and the short term Power Limit 2 PL2 Depending on a windowed Power Limit 1 Time constant the CPU can spend a short time abov
72. n 2 3 oz 0 067 kg www acromag com XVME 6400 USER MANUAL 7 5 2 Connector Information 7 5 2 1 3 Expansion Connector This 60 pin Samtec QTH 030 03 L D A K connector is used for I O connection to the XVME 6400 CPU module SIGNAL ENET1 MDI2 Ni SIGNAL ENET1 MDIO Ni ENET1 MDI2 P ENET1 MDIO Pi GND GND ENET1 MDI3 Ni ENET1_MDI1_N ENET1 MDI3 Pi ENET1_MDI1_P GND GND SATA1_TX_N SATAO_TX_N SATA1_TX_P SATAO_TX_P GND GND SATA1_RX_N SATAO_RX_N SATA1_RX_P SATAO_RX_P GND GND Reserved Reserved Reserved Reserved GND GND Reserved Reserved Reserved Reserved GND GND USB2_N USB3_N USB2_P USB3_P SMB_CLK SMB_DATA 5V 5V USB_OCH ENET1_ACT 5V ENET1_LINK PLT_RST COM3_TXD 3 3V 3 3V NC COM3_RXD 3 3V GND ENET1_SEL 3 3V 3 3V 1 5V NC NO CONNECT 1ENET1 signals are not available when SW1 is in position 2 3 2ENET1 SEL enables ENET1 signals when SW1 is in position 1 2 Acromag Inc Tel 248 295 1541 70 www acromag com XVME 6400 USER MANUAL 7 5 2 2 J7 Ethernet Connector This standard 8 pin RJ 45 connector Bel Fuse L834 1G1T S7 is for connection to an Ethernet network The port can auto sense 10 Base T 100Base T and 1000Base TX connections LIINK and ACTIVITY LEDs are buil
73. ned within its original manufacturer s packaging Be aware that failure to comply with these guidelines will void the Acromag Limited Warranty 2 1 Unpacking and Inspecting Upon receipt of this product inspect the shipping carton for evidence of mishandling during transit If the shipping carton is badly damaged or water stained request that the carrier s agent be present when the carton is opened If the carrier s agent is absent when the carton is opened and the contents of the carton are damaged keep the carton and packing material for the agent s inspection For repairs to a product damaged in shipment refer to the Acromag Service Policy to obtain return instructions It is suggested that salvageable shipping cartons and packing material be saved for future use in the event the product must be shipped This board is physically protected with packing material and electrically protected with an anti static bag during shipment However it is recommended that the board be visually inspected for evidence of mishandling prior to applying power Acromag Inc Tel 248 295 1541 13 www acromag com XVME 6400 USER MANUAL 2 2 Installing into a Backplane The XVME 6400 is a 6U single slot module For proper cooling the air cooled models must only be installed into an air cooled chassis and the conduction cooled models must only be plugged into a conduction cooled chassis The XVME 6400 modules are designed to comply with all physi
74. onduction Cooled not available consult factory e Select the CPU option B Y 1 47W i7 4700EQ 2 4GHz quad core 6MB Cache Y 3 25W i5 4402E 1 6GHz dual core 3MB Cache e Select the memory option CC v 08 8GB Y 16 16GB e Select the Connector Option D Y 0 with PO Y 1 without PO e Select the operating environment temperature option E Y Blank Standard temperature operation 0 C to 70 C Air Cooled Models 40 C to 85 C Conduction Cooled Models not applicable v E Extended temperature operation not available consult factory 40 C to 75 C Air Cooled Models Only e Select the solder option X Y L Leaded solder not available consult factory Y LE Lead free solder Acromag Inc Tel 248 295 1541 9 www acromag com XVME 6400 USER MANUAL 1 6 Key Features and Benefits The XVME 6400 block diagram shown in Fig 1 6 a illustrates the key components and features that are summarized on the following pages Fig NOTE 1 PMC VO IS ROUTED TO F2 BY DEFAI ALTERNATELY XVME 0300 COMPATIBLE I VO CAN BE ROUTED TO P2 BY BUILD OPTION 1 1 SERIAL 4 GPINS 4 GPOUTS E 164 PMC UO P2 SEE NOTE 1 1 6 a 1 DVI D XVME 6400 Block Diagram NOTE 2 PMC VO IS ROUTED TO PO BY DEFA CTERNATELY AMC VO CAN BE ROUTED TO PO BY BUILD OPTION 2158 20 1 89232 INTEL 8 SERIES CHIPSET OLSE QM87 PLATF
75. ork in XMC mode Note Processor XMC modules are not supported on the XVME 6400 Note Conduction cooled XMC modules must be used on conduction cooled models of the XVME 6400 3 16 2 PMC Modules PMC modules can be used in either or both Upper and Lower Expansion Sites on the XVME 6400 however if one PMC module is used in conjunction with one XMC module the PMC module must be in the Upper Site When a PMC module is installed in the Upper Site the PEX8114 PXle to PCI X Bridge is enabled and connected using lanes of the PCle interface for the Acromag Inc Tel 248 295 1541 36 www acromag com XVME 6400 USER MANUAL Upper Site If PMC modules are not recognized check SW2 2 to be sure it is not forcing the sites to work in XMC mode The PMC interface uses PCI X and can function at 133MHz 100MHz 66MHz or 50MHz bus speeds SW2 1 may be used to select a maximum bus speed or allow it to be automatic based on the PMC card s installed Note The VITA 39 Specification PCIX Auxiliary Standard for PMCs states that Dual PMC site carriers shall under clock the bus at 100MHz when 133MHz capable PMC s are installed and the 133MHz mode is enabled Instability may result with some 133MHz capable PMC modules with the bus speed set at 133MHz Under clocking to 100MHz using SW2 1 is recommended when 133MHz module s are installed Note Processor PMC modules are not supported on the XVME 6400 Note Conduction cooled PMC modu
76. ort 5 out the front panel The power is current limited to 1A shared with J4 SIGNAL 45V USB POWER USB5 N USB5 P GND Acromag Inc Tel 248 295 1541 81 www acromag com XVME 6400 USER MANUAL 8 4 2 6 J7 DVI D Connector This standard 29 pin DVI Molex 74320 1004 connector brings the DVI port out the front panel Only the digital signals are available on this connector It can be used simultaneously with the VGA connector SIGNAL DVI P2 N DVI P2 P GND NC NC DVI DC CLK DVI DC DAT NC DVI P1 N DVI P1 P GND NC NC 5V DVI 1A MAX GND HOT PLUG DETECT DVI PO N DVI PO P GND NC NC GND DVI CLK P DVI CLK N NC NC NC NC o o o u BENE NC NO CONNECT Acromag Inc Tel 248 295 1541 82 www acromag com XVME 6400 8 4 2 7 J8 Dual Ethernet RJ Point 5 Connector This 16 pin RJ Point Five Connector TE 2170129 1 brings 2 Gigabit Ethernet ports out the front panel These can be accessed through standard RJ 45 connectors by using the supplied adapter cables USER MANUAL Note Patch cables of various lengths with RJ Point 5 connectors on one end and standard RJ 45 connectors on the other are available from TE and Stewart Connector SIGNAL ENETO Map P ENETO MXO N ENETO MX1 P ENETO MX1 N ENETO MX2 P ENETO_MX2_N ENETO_MX3_P ENETO_MX3_N ENET1 MXO P EN
77. ote The following information is from Intel document No 328901 Mobile 4th Generation Intel Core Processor Family Datasheet Volume 1 of 2 Rev 002 September 2013 The Intel Turbo Boost Technology allows the processor core to opportunistically and automatically run faster than its rated operating frequency render clock if it is operating below power temperature and current limits The Intel Turbo Boost Technology feature is designed to increase performance of both multi threaded and single threaded workloads The processor supports a Turbo mode in which the processor can use the thermal capacity associated with the package and run at power levels higher than TDP power for short durations This improves the system responsiveness for short surging usage conditions The turbo feature needs to be properly enabled by BIOS for the processor to operate with maximum performance See the appropriate processor family BIOS writer s guide for enabling details Since the turbo feature is configurable and dependent on many platform design limits outside of the processor control the maximum performance cannot be ensured Turbo Mode availability is independent of the number of active cores however the Turbo Mode frequency is dynamic and dependent on the instantaneous application power load the number of active cores user configurable settings operating environment and system design Compared with previous generation products Intel Tu
78. ove Battery BT1 from No system BIOS socket Non Volatile Memory Does this product contain Non Volatile memory i e Memory of whose contents is retained when power is removed m Yes No Type EEPROM Flash etc Size User Modifiable Function Process to Sanitize Flash 16Mbyte m Yes Storage of Code and Data Clear Flash memory by No for system BIOS erasing all sectors of the Flash Type EEPROM Flash etc Size User Modifiable Function Process to Sanitize EEPROM Oty 3 16Kbytes m Yes U47 Ethernet Firmware MACID Clear EEPROM memory each No U14 U42 PEX8114 Bridge Config by erasing all bytes Type EEPROM Flash etc Size User Modifiable Function Process to Sanitize EEPROM 256bytes m Yes U20 Module ID and or User Data Clear EEPROM memory No by erasing all bytes Acromag Representative Name Title Email Office Phone Office Fax Joseph Primeau Dir of Sales solutions Qacromag com 248 295 0310 248 624 9234 and Marketing Acromag Inc Tel 248 295 1541 66 www acromag com XVME 6400 USER MANUAL 7 0 XBRD 9060 I O Expander Accessory Module The optional XBRD 9060 module may be installed in the Upper Site of an air cooled XVME 6400 to bring more I O to the front panel as well as allow mSATA SSD modules to be added for storage The following I O is available on the front panel of the XBRD 9060 e One Gigabit Ethe
79. ower The expected expansion card power is 40W To determine the value to use for PL1 PL1 90W 40W 22W 28W A value no larger than 28 should be programmed into the BIOS setup utility for PL1 in this situation Acromag Inc Tel 248 295 1541 38 www acromag com XVME 6400 USER MANUAL Example 2 An XVME 6400 is used in a 3 row backplane with 5V only power The expected expansion card power is 40W To determine the value to use for PL1 PL1 57 5W 40W 22W 4 5W The expected expansion card power is too large for this scenario Example 3 An XVME 6400 is used in a 3 row backplane with 5V only power The expected expansion card power is 30W To determine the value to use for PL1 PL1 57 5W 30W 22W 5 5W Care must be taken in this situation Since this value is much less than 20W only very small workloads on the CPU will keep the power at this limit The expected expansion card power is still likely too large to maintain a long life of the XVME 6400 See Section 3 2 2 for more details regarding Programmable CPU Power Limits If PL1 is not lowered using the Programmable CPU Power Limits the following tables describe the available power for installed expansion modules For i7 4700EQ CPU Backplane Type Combined Expansion Module Power 5 row with 5V amp 3 3V supplied 5V 20W 3 3V 63 5W 5 row with 5V only supplied 5V 17 5W 3 3V included in 5V 3 row with 5V only supplied ONLY SUPPORTED WITH PL1 lowered Fo
80. perate as either USB 2 0 or USB 1 1 connections The XBRD 9060 contains 2 mSATA sockets that allow 2 SSD drives to be added to the XVME 6400 while still remaining within a single VME slot Using the software RAID functionality of the QM87 PCH these drives can even be setup as a RAIDO 1 array if redundancy or extra speed is desired 3 16 5 Power Available to Expansion Modules The power requirements given in Section 6 4 do not include attached expansion modules The amount of power available to the expansion sites depends on which CPU is used on the XVME 6400 the programmable PL1 power limit used for that CPU and what type of backplane power supply combination is powering it In order to maintain the stability and long life of the XVME 6400 the programmed CPU PL1 power limit should be set according to the following equation PL1 Total Available 5V Power Expected Combined Expansion Card DV Power Rest of Board 5V Power The Total Available 5V Power is determined by the backplane type Backplane Type Total Available 5V Power 5 row with 5V amp 3 3V supplied 90W 5 row with 5V only supplied 87 5W 2 5W of 3 3V made from 5V 3 row with 5V only supplied 57 5W 2 5W of 3 3V made from 5V Expected Combined Expansion Card 5V Power is the amount of 5V power the installed PMC XMC expansion modules are expected to consume The Rest of Board 5V Power is 22W typical Example 1 An XVME 6400 is used in a 5 row backplane with 5V only p
81. r i7 4402E CPU Backplane Type Combined Expansion Module Power 5 row with 5V amp 3 3V supplied 5V 42W 3 3V 63W 5 row with 5V only supplied 5V 39W 3 3V included in 5V 3 row with 5V only supplied 5V 9 5W 3 3V included in 5V Acromag Inc Tel 248 295 1541 39 www acromag com XVME 6400 USER MANUAL 3 17 VME Interface The XVME 6400 connects to the VMEbus through the high performance TSI 148 VME Bridge that is fully compliant with the 2eSST and VME64 Extension standards This allows the XVME 6400 to take advantage of the higher performance VME protocols but sill co exist with VME boards utilizing legacy protocols The TSI 148 connects to the QM87 PCH through the use of a dedicated PEX8114 PCle to PCI X bridge running at 133MHz allowing maximum throughput to from the VMEbus The bridge utilizes a slave clock mechanism that allows the SYSCON functionality of the TSI 148 to remain in place on the VMEbus while the XVME 6400 undergoes a local reset This allows other boards in the VMEbus system to remain fully functional if a local reset of the XVME 6400 becomes necessary due to a hardware or operating system problem For VMEbus configuration options see Sections 3 1 3 3 1 5 and 3 1 6 For more information refer to the TSI 148 User Manual 3 18 Front Panel Layout e PASS FAIL LEDs The green PASS and red FAIL LEDs are used as an indication of board health during the BIOS boot up As the BIOS starts the POST the red FAIL LED w
82. rbo Boost Technology will increase the ratio of application power to TDP Thus thermal solutions and platform cooling that are designed to less than thermal design guidance might experience thermal and performance issues since more applications will tend to run at the maximum power limit for significant periods of time Acromag Inc Tel 248 295 1541 32 www acromag com XVME 6400 USER MANUAL Refer to The APTIO Core BIOS Manual For Acromag Products and the appropriate processor Turbo Implementation Guide for more information 3 13 6 Intel Active Management Technology Note The following information is from Intel publication External Design Specifications April 2013 Revision 2 1 for the Intel 8 Series C220 Series Chipset Family Platform Controller Hub PCH Intel Active Management Technology Intel AMT is a set of advanced manageability features developed to extend the manageability capability for IT through Out Of Band OOB This allows asset information remote diagnostics recovery and contain capabilities to be available on client systems even when they are in a low power or off state or in situations when the operating system is hung For further information on configuring this technology refer to The APTIO Core BIOS Manual For Acromag Products 3 13 7 Intel Matrix Storage Technology Intel Matrix Storage Technology is supported by Intel s 8 Series QM87 Lynx Point PCH which provides e AHCI functionali
83. regarding this option The Upper Site accepts PMC or XMC modules with the module s P4 user I O routed as 100ohm differential pairs to the P2 connector on the XVME 6400 A build option is available to instead add a second serial port 4 General Purpose Digital Inputs and 4 General Purpose Digital Outputs to the XVME 6400 s P2 connector making the XVME 6400 compatible with the P2 I O of the XVME 6300 Please consult factory regarding this option 3 16 1 XMC Modules XMC modules can be used in either or both Upper and Lower Expansion Sites on the XVME 6400 however if one XMC module is used in conjunction with one PMC module the XMC module must be in the Lower Site Each Expansion Site connects to the XMC module with a x8 PCle interface While the connection itself supports Gen2 speeds please note that the XMC connectors are only rated for Gen1 speeds limiting the supported speed of the XMC modules to Gen1 A build option is available for the XMC connectors to instead be VITA 61 connectors which do support Gen2 speeds however this limits the site s to having only VITA 61 modules supported Please consult factory regarding this option When an XMC module is installed in the Upper Site the PEX8114 PXle to PCI X Bridge is automatically disabled and all 8 lanes of the PCle interface for the Upper site are connected to the XMC module If this automatic mechanism does not work with a particular XMC module SW2 2 may be used to force the site to w
84. rnet Port Disabled 2 3 ORB GND tied to Digital 4 5 ORB GND GND 5 6 ORB GND Isolated SW1 1 3 is used to configure the front panel Ethernet port When this port is enabled the ETH1 signals are not available on the XVME 6400 s PO connector SW1 4 6 is used to configure the isolation of the Front Panel ORB GND 7 3 mSATA Module Installation One or two full size 51mm mSATA modules may be installed by using the screws provided In a high vibration environment the addition of a removable thread locker such as Loctite 242 is recommended For installation of half size 26 8mm mSATA modules please consult factory 7 4 Installation onto XVME 6400 The XBRD 9060 is installed onto the XVME 6400 in the same fashion as a PMC XMC module First insert the XBRD 9060 through the front panel at an angle and then bring the back of the module down to seat into the expansion connector Once the module is seated in the connector install the four screws provided from the back side of the XVME 6400 In a high vibration environment the addition of a removable thread locker such as Loctite 242 is recommended Acromag Inc Tel 248 295 1541 68 www acromag com XVME 6400 7 5 Specifications 7 5 1 Physical The XBRD 9060 dimensions are shown below Length Width Height from XVME 6400 includes PCB Unit Weight Acromag Inc Tel 248 295 1541 69 USER MANUAL 128 0 mm 5 039 in 74 0 mm 2 913 in 12 6 mm 0 496 i
85. rnet port via a standard RJ 45 connector When this port is enabled on the XBRD 9060 module one of the Ethernet ports on the PO connector is disabled e One RS 232 serial port This port only contains TX RX signals It is brought out on a mini USB B connector but an adapter cable is included with the module for connection using a standard DB 9 connector e Two USB 3 0 2 0 ports These ports use standard USB A connectors and can operate as either USB 3 0 or USB 2 0 connections The XBRD 9060 also contains 2 mSATA sockets that allow 2 SSD drives to be added to the XVME 6400 while still remaining within a single VME slot Using the software RAID functionality of the QM87 PCH these drives can even be setup as a RAIDO 1 array if redundancy or extra speed is desired 7 1 Ordering Information When ordering the XBRD 9060 X I O Expander module please select from and specify the available solder option choice X as defined below e Select the solder option X Y L Leaded solder LF Lead free solder Acromag Inc Tel 248 295 1541 67 www acromag com XVME 6400 USER MANUAL 7 2 Hardware Information and Configuration 7 2 4 Switch SW1 Configuration Table 7 2 a XBRD 9060 Configuration Switch SW1 Table 7 2 1 a summarizes the functions settings and descriptions for dip switch SW1 Configuration Switch SW1 Position Function Switch Setting Front Panel Ethernet Ethernet Port Port Enabled Enable Front Panel Ethe
86. rounded by heat sink material to provide a robust mechanism both mechanically and thermally e PCle x8 2 Traditionally used for external graphics but on the XVME 6400 supports any PMC XMC devices One of the connections is muxed with a PEX8114 PCle gt PCI X bridge for PMC vs direct XMC connection This bridge drives both PMC sites when enabled but the lower site may still contain an XMC module even if the PMC bridge is enabled e DVI D This digital display interface supports connection of both DVI D or HDMI display devices e Programmable CPU power limits By simply programming a lower power limit in the BIOS setup the CPU can be used in applications where less power is available or heat removal is an issue This is accomplished by the CPU automatically underclocking its frequency to maintain a power level at the set limit 3 3 1 Active Processor Core Selection All of the CPU cores should be kept active in high performance systems requiring all available computing power Conversely applications having reduced power requirements can save power by disabling one or more of the CPU cores The number of active CPU cores can be specified in the CPU configuration menu More details about this feature are provided in The APTIO Core BIOS Manual For Acromag Products 3 3 2 Turbo Boost Configuration By default Turbo Mode is enabled in the BIOS setup screen Turbo Mode allows the CPU to go beyond the rated nominal clock frequency when t
87. ssemblies must be installed into an air cooled VME chassis with proper airflow across the board At least 300LFM of airflow is required to ensure proper operation across entire specified temperature range Conduction cooled assemblies must be installed into a conduction VME chassis Acromag Inc Tel 248 295 1541 34 www acromag com XVME 6400 USER MANUAL In addition to the air or conduction heatsink assemblies special SODIMM heat spreaders are used to remove heat from the SODIMM modules as well as hold them tightly secured to the board To remove the SODIMM modules simply remove the 4 screws per SODIMM from the back side of the PCB 3 15 Watchdog The XVME 6400 features a software triggered multi stage watchdog solution When the watchdog timer expires the module by default causes a system reset For further information on the Watchdog feature refer to The APTIO Core BIOS Manual For Acromag Products Acromag Inc Tel 248 295 1541 35 www acromag com XVME 6400 USER MANUAL 3 16 Expansion Sites The XVME 6400 features two expansion sites that allow the board to be customized for a wide array of customer applications The Lower Site accepts either PMC or XMC modules with the module s P4 user I O routed as 100ohm differential pairs to the optional PO connector on the XVME 6400 A build option is available to instead route the I O from the module s P6 connector to the XVME 6400 s PO connector Please consult factory
88. t in to the connector SIGNAL ENET1 MX P ENET1 MX Ni ENET1 Mai P ENET1 MX2 P ENET1_MX2_N ENET1_MX1_N ENET1 MX3 P ENET1_MX3_N 1ENET1 signals are not available when SW1 is in position 2 3 7 5 2 3 J2 RS 232 Serial Connector This 5 pin USB mini B style connector TE 1734035 2 is used for the COM3 RS 232 serial port connection SIGNAL NC COMS3 RXD COMS3 TXD NC GND 7 5 2 4 RS 232 Serial Adapter Cable Use the included shielded adapter cable to have a standard DB 9 connector wired as a DTE port SIGNAL NC COM3_TXD COM3_RXD NC GND NC NC NC NC o o NOV BENE Acromag Inc Tel 248 295 1541 71 www acromag com XVME 6400 7 5 2 5 J4 USB 2 0 Connector USER MANUAL This 9 pin USB 3 0 A style FCI 10117835 001LF connector carries USB data at either USB 2 0 or USB 1 1 speeds The power is current limited to 1A Note Even though the connector is a USB 3 0 connector it will only function at USB 2 0 or lower speeds There is no USB 3 0 superspeed signal connection SIGNAL 5V USB POWER USB2 N USB2 P GND NC NC NC 7 5 2 6 J5 USB 2 0 Connector VD o NOV BENE NC This 9 pin USB 3 0 A style FCI 10117835 001LF connector carries USB data at either USB 2 0 or USB 1 1 speeds The power is current limited to 1A Note Even though the connector is a USB 3 0 connector it will on
89. tening the machine screws at the top and bottom of the board 2 Connect all remaining peripherals by attaching each interface cable into the appropriate connector on the front of the XVME 6400 board or on the XVME 9640 Rear Transition Module Acromag Inc Tel 248 295 1541 14 www acromag com XVME 6400 USER MANUAL 3 0 HARDWARE INFORMATION AND CONFIGURATION OPTIONAL P2 Fig 5 1 a Top View 2 m SEET gt Acromag Inc Tel 248 295 1541 15 www acromag com XVME 6400 USER MANUAL 3 1 Module Hardware Switch Configuration 3 1 1 Core Configuration Switch SW1 Table 3 1 a summarizes the functions settings and descriptions for dip switches SW1 1 thru SW1 4 Table 3 1 a Core alas Switch SW1 Core Function Switch TE Configuration Switch SW1 No Pushbutton Reset Front Panel Reset Button Causes Local Reset ORB GND Isolated ORB GND tied to digital GND Reset Button ORB GND Auto Enable Onboard 3 3V Regulator if Not on Backplane Force Onboard 3 3V Regulator On Onboard 3 3V Regulator Normal Operation Reserved Reserved SW1 1 is used to configure whether the front panel reset switch can be used to reset the XVME 6400 and subsequently the whole VME chassis depending on SW6 3 SW1 2 is used to isolate ORB GND the front panel s chassis connection from digital ground if necessary to isolate ground loops SW1 3 is reserved and should be left in the OFF position for nor
90. tion Process to Sanitize none Yes No Non Volatile Memory Does this product contain Non Volatile memory i e Memory of whose contents is retained when power is removed m Yes No only with mSATA module s installed Type EEPROM Flash etc Size User Modifiable Function Process to Sanitize Flash mSATA m Yes Storage of User Data Refer to mSATA module module No documentation dependent Acromag Representative Name Title Email Office Phone Office Fax Joseph Primeau Dir of Sales solutions acromag com 248 295 0310 248 624 9234 and Marketing Acromag Inc Tel 248 295 1541 76 WWW acromag com XVME 6400 USER MANUAL 8 0 XVME 9640 Rear Transition Accessory Module The optional XVME 9640 module may be installed into the rear slot directly behind the XVME 6400 to easily access all of the available I O on the XVME 6400 s P2 and optionally PO connectors as well as allow mSATA SSD modules to be added for storage The following I O is available on the front panel of the XVME 9640 e Two Gigabit Ethernet ports are available on the front panel s optional RJ Point 5 connector installed if the optional RJO connector is installed One adapter cable is included with the XVME 6400 to connect from the front panel s RJ Point 5 connector to a standard RJ45 connector e One VGA port via standard DB 15 connector e One DVI D port via standard 24 pin DVI connec
91. to determine if final thermal solution is adequate Relative Humidity 596 to 9596 Non condensing Storage Temperature 40 C to 85 C Air Cooled models 55 C to 105 C Conduction Cooled models Shock Non Operating 50g peak acceleration 11ms duration MIL STD 202G Method 213B Vibration Operating 11 96g RMS 50 20 000Hz each axis MIL STD 202G Method 214A Acromag Inc Tel 248 295 1541 64 www acromag com XVME 6400 USER MANUAL 6 6 Reliability Prediction MTBF Mean Time Between Failure MTBF in hours using MIL HDBK 217F FN2 Per MIL HDBK 217 Ground Benign Controlled GgGc Table 6 6 a MTBF 25 C 177 026 20 2 5 648 9 40 C 137 429 15 7 TBD 1FIT is Failures in 10 hours Acromag Inc Tel 248 295 1541 65 www acromag com XVME 6400 USER MANUAL 6 7 XVME 6400 Certificate of Volatility Certificate of Volatility Acromag Model Manufacturer XVME 64XX XXXXX XX Acromag Inc 30765 Wixom Rd Wixom MI 48393 Volatile Memory Does this product contain Volatile memory i e Memory of whose contents are lost when power is removed m Yes No Type SRAM SDRAM etc size User Modifiable Function Process to Sanitize SDRAM m Yes Storage of code data Power Down Up to 16GB No for CPU depends on SODIMM modules installed Type SRAM SDRAM etc Size User Modifiable Function Process to Sanitize PCH internal CMOS SRAM 256 bytes m Yes Data storage for Rem
92. tor e Two USB 2 0 ports These ports use standard USB A connectors e The Upper PMC XMC module s P4 user I O from the XVME 6400 s P2 connector is available via a 68 pin SCSI 3 connector The following I O is available via internal connectors on the XVME 9640 e Stereo Audio Line In amp Line Out are available via a 5 pin connector e One software selectable RS 232 RS 485 serial port is available via a 10 pin header e The Lower PMC XMC module s user I O from the XVME 6400 s optional RJO connector is available via two optional high speed Samtec connectors installed if the optional PO connector is installed The XVME 9640 also contains 2 mSATA sockets that allow 2 SSD drives to be added while still remaining within a single VME slot Using the software RAID functionality of the QM87 PCH these drives can even be setup as a RAIDO 1 array if redundancy or extra speed is desired Note The standard XVME 9640 cannot be used in a backplane that uses VITA 31 1 Ethernet A custom build option is available that isolates the Ethernet lines for use in a VITA 31 1 system Please consult factory for this option WARNING The XVME 9640 should not be used with an XVME 6400 that is built with the XVME 6300 Compatible I O option For this option instead use the XVME 9630 module RTM for XVME 6300 Acromag Inc Tel 248 295 1541 77 www acromag com XVME 6400 USER MANUAL 8 1 Ordering Information When ordering the XVME 9640 A X VMEbus
93. ty e RAID 0 1 5 10 Support and e Intel Smart Response Technology 3 13 8 Intel Configurable TDP Technology Intel Configurable TDP Technology cTDP allows users to reconfigure the 47W thermal design power TDP level of the i7 4700EQ CPU down to 37W in systems where a lower amount of power is available or a smaller thermal solution is required For further information on configuring the TDP levels refer to The APTIO Core BIOS Manual For Acromag Products 3 14 Thermal Management The Intel Haswell processor contains a digital thermal sensor for each execution core and a thermal monitor to measure the processor s temperature A thermal sensor connected to the NCT6776 Super l O is used to measure the module s temperature The integrated graphics and memory controller GMC monitors its temperature and initiates thermal management with an internal digital thermal sensor Memory loading or high GMC temperatures will result in bandwidth throttling The temperature of the Intel Lynx Point PCH is monitored by two thermal sensors located on the PCH The system will be shut down by the PCH when its thermal limit is reached Acromag Inc Tel 248 295 1541 33 www acromag com XVME 6400 USER MANUAL 3 14 1 Thermal Monitoring The BIOS setup utility displays the processor and board temperatures For further information on how to check these temperatures refer to The APTIO Core BIOS Manual For Acromag Products 3 14 2 Thermal T
94. utput level is high e The serial protocol used by COM1 and COM2 can be either RS 232 or RS 422 485 Note that COM1 is only available with the XVME 6300 Compatible I O build option e The ID EEPROM on the SMBus can be configured as Read Write or Read Only e The soldered down SSD can be configured as Read Write or Read Only The XMC mezzanine modules can configured as Read Write or Read Only XMC SIot A is the lower slot XMC Slot B is the upper slot Note the mezzanine must support use of the MVMRO signal The rear DVI D port can be enabled disabled The TSI 148 PCI Memory window size can be set to 1 4 8 16 32 64 or 128MB 4 2 Drivers and Utilities Drivers and Utilities for the XVME 6400 can be downloaded from Acromag s website at http www acromag com Acromag Inc Tel 248 295 1541 41 www acromag com XVME 6400 USER MANUAL 5 0 SERVICE AND REPAIR 5 1 Service and Repair Assistance Single Board Computer SBC products like the XVME 6400 COM Express module are generally difficult to repair The module can be easily damaged unless special SBC repair and service tools are used Further Acromag has automated test equipment that thoroughly checks the performance of each board For these and other reasons it is strongly recommended that a non functioning SBC be returned to Acromag for repair Please refer to Acromag s Service Policy Bulletin or contact Acromag for complete details on how to obtain parts or return parts
95. verride switches are available on SW2 LPC The Low Pin count Bus is connected to both the NCT6106D Super l O for serial ports and debug port 80 connections in addition to the AT97SC3204 TPM device SPI The Serial Peripheral Interface is used for the onboard boot flash HDA Audio The HDA audio port is connected to an ALC892 high definition audio codec Analog stereo line in and line out ports are available on the VME P2 connector SMBUS This I2C compatible System Management Bus has connections to the memory DIMMs the XMC connectors and also to an onboard EEPROM for module identification 1 6 3 Intel 82580EB Quad Ethernet Controller The Intel 82580EB Gigabit Ethernet Controller contains both the MAC and the physical layer It provides 4 ports that auto sense 10 Base T 100Base T and 1000Base TX connections Two of these are available on the front panel s RJ Point 5 connector Two are available on the optional VME PO connector for use on a VITA 31 1 Switch Fabric compliant backplane or via the optional XVME 9640 RTM module One of these PO ports may instead be switched to the Expansion Site connector making it available on the front panel via the XBRD 9060 I O Expander module Acromag Inc Tel 248 295 1541 11 www acromag com XVME 6400 USER MANUAL 1 6 4 Nuvoton NCT6106D Super I O The Nuvoton NCT6106D is an LPC device that provides temperature and voltage monitoring Port 80 debug via 2 digit 7 segment display and the fol
96. w is from Intel document No 328901 Mobile 4th Generation Intel Core Processor Family Datasheet Volume 1 of 2 Rev 002 September 2013 The High Definition Multimedia Interface HDMI is provided for transmitting uncompressed digital audio and video signals from DVD players set top boxes and other audiovisual sources to television sets projectors and other video displays It can carry high quality multi channel audio data and all standard and high definition consumer electronics video formats The HDMI display interface connecting the processor and display devices uses transition minimized differential signaling TMDS to carry audiovisual information through the same HDMI cable HDMI includes three separate communications channels TMDS DDC and the optional CEC consumer electronics control CEC is not supported on the processor The HDMI cable carries four differential pairs that make up the TMDS data and clock channels These channels are used to carry video audio and auxiliary data In addition HDMI carries a VESA DDC The DDC is used by an HDMI Source to determine the capabilities and characteristics of the Sink Audio video and auxiliary control status data is transmitted across the three TMDS data channels The video pixel clock is transmitted on the TMDS clock channel and is used by the receiver for data recovery on the three data channels The digital display data signals driven natively through the PCH are A
97. wise SFAILO is negated when software clears the SFAILAI bit in the VCTRL register The initial value of the SFAILAI bit can be configured at power up reset through the SFAILAI AC power up option or a value can be programmed by software in the SFAILAI bit in the VMEbus Control register VCTRL 3 2 Power Supply and Management 3 2 1 Power Options The XVME 6400 can be used in any of the following VMEbus systems with the associated caveats e 3 row 5V only legacy system This system will limit the P2 I O and the incoming power to the XVME 6400 to 60W The DVI D port and the lower 15 diff pair of PMC I O will not be accessible Because of the reduced power input the use of the i7 CPU requires that the programmable power limits be employed See Section 3 16 5 for guidance on what limits should be used in conjunction with the installed PMC XMC modules e 5 row 5V only legacy system This system permits all available P2 I O to be accessible to the XVME 6400 but the lack of a 3 3V power supply means that the available SOW of 5V power also feeds the Acromag Inc Tel 248 295 1541 20 www acromag com XVME 6400 USER MANUAL 3 3V needs of the XVME 6400 as well as those of any attached PMC XMC modules e 5 row 5V 3 3V VME64x system This system permits all available P2 I O to be accessible to the XVME 6400 as well as allows for the maximum available power from the backplane 90W from 5V and 66W from 3 3V This is the reco
98. ype B 95 pin Harting 17 25 095 2102 It contains 2 Ethernet and the Lower Site s PMC I O XMC instead with XVME 6400 build option USER MANUAL 233 35 mm 9 187 in 80mm 3 150 in 20 32 mm 0 8 in 7 8 oz 0 221 kg ROW PIN A B C D E F 1 GND GND GND GND GND GND 2 ENETO MXO P ENETO MXO N GND ENETO MX2 P ENETO MX2 N 3 ENETO MX1 P ENETO MX1 N GND ENETO MX3 P ENETO MX3 N GND 4 ENET1 MXO P ENET1 MXO Ni GND ENET1 MX2 P ENET1 MX2 Ni 5 ENET1 MX1 P ENET1 MX1 Ni GND ENET1 MX3 P ENET1 MX3 Ni GND 6 ENET1_LINK ENETO LINK 3 3V_FROM_CPU ENET1_ACT ENETO_ACT 7 LWR 1OO0 P LWR 102 P LWR 102 N LWR 103 P LWR 103 N GND 8 LWR IOO N LWR IO4 P LWR IO4 N LWR 1O5 P LWR IO5 N 9 LWR OS P LWR 1O6 P LWR IO6 N LWR 107 P LWR 107 N GND 10 LWR IO8 N LWR IO1 P LWR IO1 N LWR lO9 P LWR IO9 N 11 LWR 1012 P LWR 1010 P LWR 1010 N LWR IO11 P LWR IO11 N GND 12 LWR 1012 N LWR 1025 N LWR 1025 P LWR 1013 P LWR 1013 N 13 LWR 1016 P LWR IO14 P LWR_I014_N LWR IO15 P LWR_I015_N GND 14 LWR_I016_N LWR_I031_N LWR 1031 P LWR 1017 P LWR 1017 N 15 LWR 1020 P LWR 1018 P LWR IO18 N LWR_I019 P LWR 1019 N GND 16 LWR 1020 N LWR 1029 N LWR 1029 P LWR 1021 P LWR 1021 N 17 LWR 1024 P LWR 1022 P LWR 1022 N LWR 1023 P LWR 1023 N GND 18 LWR 1024 N LWR 1026 N LWR 1026 P LWR 1027 N LWR 1027 P 19 NC LWR 1030 N LWR 1030 P LWR 1028 N LWR 1028 P GND NC NO CONNECT 1 ENET1 signals not avail
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