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Komodo Fiber Reference Guide
(Part-No. KY-FGF)
June
201
5
2 0 a M e s i l a S t . , N e s h e r 3 6 8 8 5 2 0 , I s r a e l
P O B 2 5 0 0 4 , H a i f a 3 1 2 5 0 0 1 , I s r a e l
T e l : ( + 9 7 2 ) - 7 2 - 2 7 2 3 5 0 0 F a x : ( + 9 7 2 ) - 7 2 - 2 7 2 3 5 1 1
w w w . k a y a i n s t r u m e n t s . c o m
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Table of Contents
Related Manuals for Kaya Instruments Komodo Fiber
Summary of Contents for Kaya Instruments Komodo Fiber
- Page 1 Komodo Fiber Reference Guide (Part-No. KY-FGF) June 2 0 a M e s i l a S t . , N e s h e r 3 6 8 8 5 2 0 , I s r a e l...
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Page 2: Table Of Contents
....................10 Board component Blocks ................ 10 Board Block diagram ................11 ..............12 External View of the Board Komodo Fiber Board components ............13 Featured device: Arria V GZ FPGA ............13 FPGA Configuration ................14 ..........14 4.6.1 FPGA configuration via JTAG 4.6.2... - Page 3 8.1.1 DDR3 memories ..............38 8.1.2 PCI Express ................38 8.1.3 Ethernet PHY ................. 38 Using the reference design ..............39 Board Diagnostic ..................40 Revision History Version Date Notes 30/06/15 Initial Release 16/07/15 Minor updates Komodo Fiber Reference Guide...
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Page 4: Figures And Tables
..............31 ABLE AN PIN ASSIGNMENTS SIGNAL NAME AND FUNCTIONS 12: A ..................... 32 ABLE BSOLUTE MAXIMUM RATINGS 13: P ..........................33 ABLE OWER INPUT 14: M .............. 33 ABLE AXIMUM AND MINIMUM INPUT VOLTAGES FROM Komodo Fiber Reference Guide... - Page 5 NPUTS 18: LVTTL ...................... 35 ABLE INPUT SPECIFICATIONS 19: LVTTL ....................35 ABLE OUTPUT SPECIFICATIONS 20: TTL ......................35 ABLE INPUT SPECIFICATIONS 21: TTL ......................35 ABLE OUTPUT SPECIFICATIONS 22: LED ........................39 ABLE S DESCRIPTION Komodo Fiber Reference Guide...
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Page 6: Introduction
Introduction Safety Precautions With your Komodo Fiber in hand, please take a minute to read carefully the precautions listed below in order to prevent unnecessary injuries to you or other personnel or cause damage to property. Before using the product, read these safety precautions carefully to assure correct use. -
Page 7: Disclaimer
Otherwise, the product may be damaged. Disclaimer Even if the product is used properly, KAYA Instruments assumes no responsibility for any damages caused by the following: - Earthquake, thunder, natural disaster or fire resulting from the use beyond our responsibility, acts caused by a third party or other accidents, the customer’s willful or... -
Page 8: Key Features
The QSFP and SFP interfaces are connected directly to FPGA device transceiver channels to minimize latency. All of these features combine make the Komodo Fiber ideal for a wide range of applications, including network processing and security, compute and storage, instrumentation, broadcast, defense and aerospace. -
Page 9: Product Applications
QSFP can be expanded to 4x 10G interfaces Temperature control Fan control 4 indication LEDs 0°C to 50°C operating environment temperature Product Applications Machine Vision Networking Algorithm Acceleration Broadcasting and sports analytics High-speed DVRs Komodo Fiber Reference Guide... -
Page 10: Related Documents And Accessories
Key Features Related documents and accessories Documents: Komodo Fiber Reference Guide Reference design Accessories: SFP+ module QSFP module GPIO extension panel Komodo Fiber Reference Guide... -
Page 11: Board Components
Memory 16Gb DDR3, 64 bit data width up to 128Gb DDR3, 64 bit data width SODIMM (optional) General user I/O Four user LEDs GPIO header with up to 20 possible I\O connections Komodo Fiber Reference Guide... -
Page 12: Board Block Diagram
10 Gbps SFP+ DDR3 ×64 16 Gb Bank B 10 Gbps DDR3 ×64 SFP+ up to 128 Gb 4 SFP+ dual Oscillators color LEDs PCIe 3.0 ×8 (up to 64 Gbps) Figure 1: Board block diagram Komodo Fiber Reference Guide... -
Page 13: External View Of The Board
Board Components External View of the Board Figure 2: Komodo Fiber front view Figure 3: Komodo Fiber back view Komodo Fiber Reference Guide... -
Page 14: Komodo Fiber Board Components
Table 1: Komodo Fiber board components Featured device: Arria V GZ FPGA The Komodo Fiber features Arria V GZ 5AGZME5HF35 device (P1) in a 1152-pin FBGA package. For more information about Arria V device family refer to the Arria V device Handbook. -
Page 15: Fpga Configuration
Board Components FPGA Configuration The Komodo Fiber FPGA can be configured using the JTAG header (J3) or by using the on board EPCQ256 Flash that can be programmed using flash programing header (J4) with Active Serial protocol. 4.6.1 FPGA configuration via JTAG The JTAG programming header provides a method for configuring the FPGA using an external USB-Blaster device with the Quartus II Programmer running on a PC. -
Page 16: I/O And Transceivers
Table 2: Clocks pin assignments, signal name and functions I/O and Transceivers The Komodo Fiber utilizes several I/O banks out of the possible 26 I\O or transceiver banks available on the Arria V GZ FPGA. The following figure describes what each bank is used for:... -
Page 17: General Purpose I\O
Board Components 4.8.1 General purpose I\O The Komodo Fiber supports 20 different I\O connections (on the FPGA), as described in Figure 6 and Table 3: Figure 6: General purpose Inputs and outputs Komodo Fiber Reference Guide... -
Page 18: Table 3: General Purpose Inputs And Outputs Pin Assignments, Signal Name And Functions
AM10 gpio_vt[3] AL10 General Purpose IO gpio[0] AA30 3.3-V LVTTL gpio[1] AE28 3.3-V LVTTL gpio[2] AD28 3.3-V LVTTL gpio[3] AB27 3.3-V LVTTL Table 3: General purpose Inputs and outputs pin assignments, signal name and functions Komodo Fiber Reference Guide... -
Page 19: 4.8.2 General Purpose Leds
Table 4: General purpose LEDs pin assignments, signal name and functions PCI Express (Gen 3.0) The Komodo Fiber is designed to fit entirely into a PC motherboard with a ×8 PCI Express slot that can accommodate a full height long form factor add-in card. -
Page 20: Table 5: Pcie Pin Assignments, Signal Name And Functions
Receive bus pcie_rx_p[4] AA33 1.5-V PCML pcie_rx_n[4] AA34 1.5-V PCML pcie_rx_p[5] 1.5-V PCML pcie_rx_n[5] 1.5-V PCML pcie_rx_p[6] 1.5-V PCML pcie_rx_n[6] 1.5-V PCML pcie_rx_p[7] 1.5-V PCML pcie_rx_n[7] 1.5-V PCML Table 5: PCIe pin assignments, signal name and functions Komodo Fiber Reference Guide... -
Page 21: Memory
Board Components Memory On the Komodo Fiber there are 2 memory interfaces, this section describes those interfaces and also signal names, types, and connectivity relative to the Arria V GZ. The starter board has the following memory interfaces: 16Gb DDR3 on-board SDRAM with 64bit data width, 1066 rate compatible. -
Page 22: 4.10.1 On-Board 16Gb Ddr3
Figure 9: RZQ connection when both memories are used 4.10.1 On-Board 16Gb DDR3 The Komodo Fiber supports four, 32Mx16x8 bank, DDR3 SDRAM interface for very high-speed sequential memory access. The 64-bit data bus consists of four x16 devices with a single address or command bus. -
Page 23: Figure 10: On-Board Ddr3 Signal Connections
1.35-V SSTL ddr3_2_a[10] AG13 1.35-V SSTL ddr3_2_a[11] AN18 1.35-V SSTL ddr3_2_a[12] AF11 1.35-V SSTL ddr3_2_a[13] AF14 1.35-V SSTL ddr3_2_a[14] AJ12 1.35-V SSTL ddr3_2_a[15] AH14 1.35-V SSTL ddr3_2_ba[0] AE23 1.35-V SSTL Bank address bus ddr3_2_ba[1] AH13 1.35-V SSTL Komodo Fiber Reference Guide... - Page 24 1.35-V SSTL ddr3_2_dq[18] AK19 1.35-V SSTL ddr3_2_dq[19] AP18 1.35-V SSTL ddr3_2_dq[20] AG19 1.35-V SSTL Data bus ddr3_2_dq[21] AH18 1.35-V SSTL ddr3_2_dq[22] AM18 1.35-V SSTL ddr3_2_dq[23] AJ18 1.35-V SSTL ddr3_2_dq[40] AK22 1.35-V SSTL ddr3_2_dq[41] AL22 1.35-V SSTL Komodo Fiber Reference Guide...
- Page 25 1.35-V SSTL ddr3_2_dq[11] AB20 1.35-V SSTL ddr3_2_dq[12] AF21 1.35-V SSTL ddr3_2_dq[13] AA21 1.35-V SSTL Data bus ddr3_2_dq[14] AD20 1.35-V SSTL ddr3_2_dq[15] AF20 1.35-V SSTL ddr3_2_dq[48] AD22 1.35-V SSTL ddr3_2_dq[49] AE22 1.35-V SSTL ddr3_2_dq[50] AC23 1.35-V SSTL Komodo Fiber Reference Guide...
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Page 26: Optional Sodimm (Up To 128Gb)
4.10.2 Optional SODIMM (up to 128Gb) The Komodo Fiber can support up to 128Gb, DDR3 SDRAM interfaces over SODIMM interface for very high-speed sequential memory access. The 64-bit data bus can consist of several x16 devices with a single address or command bus. This interface support rates of up to 1066 MT/s. - Page 27 1.35-V SSTL ddr3_1_dq[17] 1.35-V SSTL ddr3_1_dq[18] 1.35-V SSTL ddr3_1_dq[19] 1.35-V SSTL ddr3_1_dq[20] 1.35-V SSTL ddr3_1_dq[21] 1.35-V SSTL ddr3_1_dq[22] 1.35-V SSTL ddr3_1_dq[23] 1.35-V SSTL ddr3_1_dq[24] 1.35-V SSTL ddr3_1_dq[25] 1.35-V SSTL ddr3_1_dq[26] 1.35-V SSTL ddr3_1_dq[27] 1.35-V SSTL Komodo Fiber Reference Guide...
- Page 28 Differential 1.35-V SSTL Data strobe N byte 3 ddr3_1_dqs_p[4] Differential 1.35-V SSTL Data strobe P byte 4 ddr3_1_dqs_n[4] Differential 1.35-V SSTL Data strobe N byte 4 ddr3_1_dqs_p[5] Differential 1.35-V SSTL Data strobe P byte 5 Komodo Fiber Reference Guide...
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Page 29: Qsfp And Sfp+ Modules
Table 7: SODIMM pin assignments, signal name and functions QSFP and SFP+ modules The Komodo Fiber has 4 small form-factor pluggable (SFP) connector and cage assembly that accept SFP+ modules and one QSFP connector and cage assembly that accept QSFP module. Each SFP+ module can transmit\receive data at rates of up to 10Gb and the QSFP module can transmit\receive data at rates of up to 40Gb. - Page 30 Transmitter Disable Received Data rate select, low sfp_rs_rx[1] 2.5 V selects reduced bandwidth Transmit Data rate select, low sfp_rs_tx[1] 2.5 V selects reduced bandwidth 1.5V PCML Received Data Out, positive sfp_rxd[1] 1.5V PCML Received Data Out, negative Komodo Fiber Reference Guide...
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Page 31: Table 9: Sfp+ Pin Assignments, Signal Name And Functions
2.5 V (Open drain) driving high-z on the I\O qsfp_led_greenn[0] 2.5 V (Open drain) turns the LED off qsfp_led_yellown[0] 2.5 V (Open drain) Table 10: SFP+ and QSFP LEDs pin assignments, signal name and functions Komodo Fiber Reference Guide... -
Page 32: Fan Control (J6)
User controlled fan output. Driving logic 1 on the I\O port turns the fan_ctrl AG24 3.3-V LVTTL FAN on; driving logic 0 on the I\O turns the FAN off Table 11: Fan pin assignments, signal name and functions Komodo Fiber Reference Guide... -
Page 33: Mechanical Specifications
Mechanical Specifications Mechanical dimensions The Komodo Fiber is a half-length, full-height, PCIe card according to PCI Express Card Electromechanical Specification, 111.16mm x 167.65mm. The exact board mechanical dimensions are as defined in Figure 11. For more detailed information please, contact KAYA Instruments representative. -
Page 34: Electrical Characteristics
Electrical Characteristics Power Supply The Komodo Fiber is power from the PCI express edge connector. The input voltages must be in the range of ±8% of the nominal voltage. The DC voltage is stepped down to various power rails by the board components. -
Page 35: Electrical Characteristics For Board Io's
VCC (DDR3 SODIMM) VCCIO8D VCCR_GXBL0, VCCR_GXBL1, VCCR_GXBR0, VCCR_GXBR1, VCCT_GXBL0, VCCT_GXBL1, VCCT_GXBR0, VCCT_GXBR1 VCC, VCCHIP_L, VCCHSSI_L, 0.85 VCCHSSI_R Table 15: Power rails on the KOMODO fiber board Electrical characteristics for board IO’s: Symbol Parameter Condition Units Differential Output Voltage Change in Magnitude of ∆V... -
Page 36: Table 18: Lvttl Input Specifications
Table 20: TTL input specifications Test condition Symbol Parameter Units Output High Voltage = min, I = -2 mA Output Low Voltage = min, I = 2 mA Vdd = 5V, unless specified otherwise Table 21: TTL output specifications Komodo Fiber Reference Guide... -
Page 37: Top Level Example Design
Top Level Example Design The top level example design contains all the required project settings and an empty top level design for KOMODO Fiber in Verilog and VHDL. The top level design files can be found under fpga_top_level folder in software CD. -
Page 38: Reference Design
DDR3 DDR3 Top Level Reconfiguration Qsys Controller DDR3 DDR3 Controller A Controller B × 4 QSFP Memory Tester Memory Tester XGMII Memory × 4 4 SFP Reconfiguration PCIe Controller Gen2 × 8 Figure 12: Function diagram Komodo Fiber Reference Guide... -
Page 39: 8.1.1 Ddr3 Memories
The access to the PCIe from PC can be made using JINGO driver that should be downloaded separately from http://www.jungo.com/st/products/windriver/. KAYA instruments also offers PCI Express Gen3 x8 IP, High performance Scatter Gather DMA IP and a Drivers for DMA and PCI Express both for Windows and Linux. For IP licensing options please contact KAYA Instruments representative. -
Page 40: Using The Reference Design
1. Make sure Quartus II is installed on your PC. 2. Install KOMODO Fiber board into the PC. 3. Connect the USB Blaster cable (or USB-Blaster II cable) to the KOMODO Fiber board and host PC. Install the USB Blaster driver if necessary 4. -
Page 41: Board Diagnostic
Some of the fixtures are proprietary to KAYA Instruments. Please contact KAYA Instruments representative for availability of the fixtures. For SFP+ loopback, optical SFP+ loopback fixtures are required. Figure 13 shows the optical SFP+ loopback fixture. -
Page 42: Figure 16: Komodo Fiber With Loopback Fixtures
Reference Design The KOMODO Fiber board with all the loopback fixtures connected can be seen in Figure 16. Figure 16: KOMODO Fiber with loopback fixtures To run the diagnostic follow the below steps: 1. Make sure Quartus II is installed on your PC.
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