Stratix V Device Overview 2015.10.01 SV51001 Subscribe Send Feedback Altera's 28-nm Stratix(R) V FPGAs include innovations such as an enhanced core architecture, integrated transceivers up to 28.05 gigabits per second (Gbps), and a unique array of integrated hard intellectual property (IP) blocks. With these innovations, Stratix V FPGAs deliver a new class of application-targeted devices optimized for: * Bandwidth-centric applications and protocols, including PCI Express(R) (PCIe(R)) Gen3 * Data-intensive applications for 40G/100G and beyond * High-performance, high-precision digital signal processing (DSP) applications Stratix V devices are available in four variants (GT, GX, GS, and E), each targeted for a different set of applications. For higher volume production, you can prototype with Stratix V FPGAs and use the lowrisk, low-cost path to HardCopy(R) V ASICs. Related Information Stratix V Device Handbook: Known Issues Lists the planned updates to the Stratix V Device Handbook chapters. Stratix V Family Variants The Stratix V device family contains the GT, GX, GS, and E variants. Stratix V GT devices, with both 28.05-Gbps and 12.5-Gbps transceivers, are optimized for applications that require ultra-high bandwidth and performance in areas such as 40G/100G/400G optical communica tions systems and optical test systems. 28.05-Gbps and 12.5-Gbps transceivers are also known as GT and GX channels, respectively. Stratix V GX devices offer up to 66 integrated transceivers with 14.1-Gbps data rate capability. These transceivers also support backplane and optical interface applications. These devices are optimized for high-performance, high-bandwidth applications such as 40G/100G optical transport, packet processing, and traffic management found in wireline, military communications, and network test equipment markets. Stratix V GS devices have an abundance of variable precision DSP blocks, supporting up to 3,926 18x18 or 1,963 27x27 multipliers. In addition, Stratix V GS devices offer integrated transceivers with 14.1-Gbps data rate capability. These transceivers also support backplane and optical interface applications. These devices are optimized for transceiver-based DSP-centric applications found in wireline, military, broadcast, and high-performance computing markets. (c) 2015 Altera Corporation. All rights reserved. ALTERA, ARRIA, CYCLONE, ENPIRION, MAX, MEGACORE, NIOS, QUARTUS and STRATIX words and logos are trademarks of Altera Corporation and registered in the U.S. Patent and Trademark Office and in other countries. All other words and logos identified as trademarks or service marks are the property of their respective holders as described at www.altera.com/common/legal.html. Altera warrants performance of its semiconductor products to current specifications in accordance with Altera's standard warranty, but reserves the right to make changes to any products and services at any time without notice. Altera assumes no responsibility or liability arising out of the application or use of any information, product, or service described herein except as expressly agreed to in writing by Altera. Altera customers are advised to obtain the latest version of device specifications before relying on any published information and before placing orders for products or services. www.altera.com 101 Innovation Drive, San Jose, CA 95134 ISO 9001:2008 Registered 2 SV51001 2015.10.01 Stratix V Features Summary Stratix V E devices offer the highest logic density within the Stratix V family with nearly one million logic elements (LEs) in the largest device. These devices are optimized for applications such as ASIC and system emulation, diagnostic imaging, and instrumentation. Common to all Stratix V family variants are a rich set of high-performance building blocks, including a redesigned adaptive logic module (ALM), 20 Kbit (M20K) embedded memory blocks, variable precision DSP blocks, and fractional phase-locked loops (PLLs). All of these building blocks are interconnected by Altera's superior multi-track routing architecture and comprehensive fabric clocking network. Also common to Stratix V devices is the new Embedded HardCopy Block, which is a customizable hard IP block that leverages Altera's unique HardCopy ASIC capabilities. The Embedded HardCopy Block in Stratix V FPGAs is used to harden IP instantiation of PCIe Gen3, Gen2, and Gen1. Stratix V Features Summary Table 1: Summary of Features for Stratix V Devices Feature Description Technology * 28-nm TSMC process technology * 0.85-V or 0.9-V core voltage Low-power serial transceivers * 28.05-Gbps transceivers on Stratix V GT devices * Electronic dispersion compensation (EDC) for XFP, SFP+, QSFP, CFP optical module support * Adaptive linear and decision feedback equalization * Transmitter pre-emphasis and de-emphasis * Dynamic reconfiguration of individual channels * On-chip instrumentation (EyeQ non-intrusive data eye monitoring) Backplane capability * 600-Megabits per second (Mbps) to 12.5-Gbps data rate capability General-purpose I/Os (GPIOs) * * * * Embedded HardCopy Block * PCIe Gen3, Gen2, and Gen1 complete protocol stack, x1/x2/x4/x8 end point and root port Embedded transceiver hard IP * * * * * * Power management * Programmable Power Technology * Quartus II integrated PowerPlay Power Analysis Altera Corporation 1.6-Gbps LVDS 1,066-MHz external memory interface On-chip termination (OCT) 1.2-V to 3.3-V interfacing for all Stratix V devices Interlaken physical coding sublayer (PCS) Gigabit Ethernet (GbE) and XAUI PCS 10G Ethernet PCS Serial RapidIO(R) (SRIO) PCS Common Public Radio Interface (CPRI) PCS Gigabit Passive Optical Networking (GPON) PCS Stratix V Device Overview Send Feedback SV51001 2015.10.01 Stratix V Family Plan Feature 3 Description High-performance core fabric * Enhanced ALM with four registers * Improved routing architecture reduces congestion and improves compile times Embedded memory blocks * M20K: 20-Kbit with hard error correction code (ECC) * MLAB: 640-bit Variable precision DSP blocks * Up to 600 MHz performance * Natively support signal processing with precision ranging from 9x9 up to 54x54 * New native 27x27 multiply mode * 64-bit accumulator and cascade for systolic finite impulse responses (FIRs) * Embedded internal coefficient memory * Pre-adder/subtractor improves efficiency * Increased number of outputs allows more independent multipliers Fractional PLLs * Fractional mode with third-order delta-sigma modulation * Integer mode * Precision clock synthesis, clock delay compensation, and zero delay buffer (ZDB) Clock networks * 800-MHz fabric clocking * Global, quadrant, and peripheral clock networks * Unused clock networks can be powered down to reduce dynamic power Device configuration * * * * * High-performance packaging * Multiple device densities with identical package footprints enables seamless migration between different FPGA densities * FBGA packaging with on-package decoupling capacitors * Lead and RoHS-compliant lead-free options HardCopy V migration -- Serial and parallel flash interface Enhanced advanced encryption standard (AES) design security features Tamper protection Partial and dynamic reconfiguration Configuration via Protocol (CvP) Stratix V Family Plan The following tables list the features of the different Stratix V devices. The information in this section is correct at the time of publication. For the latest information and to get more details, refer to the Altera Product Selector. Stratix V Device Overview Send Feedback Altera Corporation 4 SV51001 2015.10.01 Stratix V Family Plan Table 2: Stratix V GT Device Features Feature 5SGTC5 5SGTC7 425 622 160,400 234,720 Registers (K) 642 939 28.05/12.5-Gbps Transceivers 4/32 4/32 PCIe hard IP Blocks 1 1 Fractional PLLs 28 28 M20K Memory Blocks 2,304 2,560 M20K Memory (MBits) 45 50 Variable Precision Multipliers (18x18) 512 512 Variable Precision Multipliers (27x27) 256 256 DDR3 SDRAM x72 DIMM Interfaces 4 4 Logic Elements (K) ALMs User I/Os(1), Full-Duplex LVDS, 28.05/12.5-Gbps Transceivers Package (2) (3) KF40-F1517 (4) 5SGTC5 5SGTC7 600, 150, 36 600, 150, 36 (40 mm) (1) (2) (3) (4) The number of GPIOs does not include transceiver I/Os. In the Quartus II software, the number of user I/ Os includes transceiver I/Os. Packages are flipchip ball grid array (1.0-mm pitch). Each package row offers pin migration (common board footprint) for all devices in the row. Migration between select Stratix V GT devices and Stratix V GX devices is available. For more information, refer to Table 6 and to AN 644: Migration Between Stratix V GX and Stratix V GT Devices. Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 5 Stratix V Family Plan Table 3: Stratix V GX Device Features Features 5SGXA 3 5SGXA 4 5SGXA 5 5SGXA 7 5SGXA 9 5SGXA B 5SGXB 5 5SGXB 6 5SGXB 9 5SGXBB Logic Elements (K) 340 420 490 622 840 952 490 597 840 952 ALMs 128,300 158,500 185,000 234,720 317,000 359,200 185,000 225,400 317,000 Registers (K) (5) 359,200 513 634 740 939 1,268 1,437 740 902 1,268 1,437 14.1-Gbps Transceive rs 12, 24, or 36 24 or 36 24, 36, or 48 24, 36, or 48 36 or 48 36 or 48 66 66 66 66 PCIe hard IP Blocks 1 or 2 1 or 2 1, 2, or 1, 2, or 1, 2, or 1, 2, or 4 4 4 4 1 or 4 1 or 4 1 or 4 1 or 4 Fractional PLLs 20 (5) 24 28 28 28 28 24 24 32 32 M20K Memory Blocks 957 1,900 2,304 2,560 2,640 2,640 2,100 2,660 2,640 2,640 M20K Memory (MBits) 19 37 45 50 52 52 41 52 52 52 Variable Precision Multipliers (18x18) 512 512 512 512 704 704 798 798 704 704 Variable Precision Multipliers (27x27) 256 256 256 256 352 352 399 399 352 352 The F1517 package contains 24 PLLs. The other packages with this device contain 20 PLLs. Stratix V Device Overview Send Feedback Altera Corporation 6 SV51001 2015.10.01 Stratix V Family Plan Features DDR3 SDRAM x72 DIMM Interfaces 5SGXA 3 5SGXA 4 5SGXA 5 5SGXA 7 5SGXA 9 5SGXA B 5SGXB 5 5SGXB 6 5SGXB 9 5SGXBB 6 6 6 6 6 6 4 4 4 4 (6) User I/Os(1), Full-Duplex LVDS, 14.1-Gbps Transceivers Package (2) (3) 5SGXA3 5SGXA4 5SGXA5 5SGXA7 5SGXA9 5SGXA (7) (8) B EH29H780 360, 90, 12H -- -- -- 5SGXB5 5SGXB6 5SGXB9 5SGXBB -- -- -- -- -- -- 432, 552, 552, 552, 108, 24 138, 24 138, 24 138, 24 -- -- -- -- -- -- 432, 432, 432, 432, 108, 36 108, 36 108, 36 108, 36 -- -- -- -- -- -- 696, 696, 696, 696, 174, 36 174, 36 174, 36 174, 36 696, 174, 36H 696, 174, 36H -- -- -- -- (33 mm) HF35F1152 (9) (35 mm) KF35F1152 (35 mm) KF40F1517 (40 mm) KH40H1517 (9) (45 mm) (6) (7) (8) (9) These are the maximum number of x72 interfaces available. The actual number of interfaces depends on the device package. LVDS counts are full duplex channels. Each full duplex channel is one transmitter (TX) pair plus one receiver (RX) pair. A superscript H after the number of transceivers indicates that this device is only available in a hybrid package. Hybrid packages are slightly larger than conventional FBGAs. Refer to Altera's packaging documentation for more information. Migration between select Stratix V GX devices and Stratix V GS devices is available. For more information, refer to Table 6. Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 7 Stratix V Family Plan User I/Os(1), Full-Duplex LVDS, 14.1-Gbps Transceivers Package (2) (3) 5SGXA3 5SGXA4 5SGXA5 5SGXA7 5SGXA9 5SGXA (7) (8) B NF40F1517 (4) -- -- 600, 600, 150, 48 150, 48 -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 5SGXB5 5SGXB6 5SGXB9 -- -- 5SGXBB -- -- 432, 432, 108, 66 108, 66 -- -- 600, 600, 150, 66 150, 66 -- -- (40 mm) RF40F1517 (40 mm) RF43F1760 (42.5 mm) RH43H1760 -- -- 600, 150, 66H 600, 150, 66H -- -- -- -- (45 mm) NF45F1932 (9) 840, 840, 840, 840, 210, 48 210, 48 210, 48 210, 48 (45 mm) Table 4: Stratix V GS Device Features Features 5SGSD3 5SGSD4 5SGSD5 5SGSD6 5SGSD8 236 360 457 583 695 89,000 135,840 172,600 220,000 262,400 Registers (K) 356 543 690 880 1,050 14.1-Gbps transceivers 12 or 24 12, 24, or 36 24 or 36 36 or 48 36 or 48 PCIe hard IP blocks 1 1 1 1, 2, or 4 1, 2, or 4 Fractional PLLs 20 20 (5) 24 28 28 M20K Memory Blocks 688 957 2,014 2,320 2,567 Logic Elements (K) ALMs Stratix V Device Overview Send Feedback Altera Corporation 8 SV51001 2015.10.01 Stratix V Family Plan Features 5SGSD3 5SGSD4 5SGSD5 5SGSD6 5SGSD8 M20K Memory (MBits) 13 19 39 45 50 Variable Precision Multipliers (18x18) 1,200 2,088 3,180 3,550 3,926 Variable Precision Multipliers (27x27) 600 1,044 1,590 1,775 1,963 DDR3 SDRAM x72 DIMM Interfaces 2 4 4 6 6 User I/Os(1), Full-Duplex LVDS, 14.1-Gbps Transceivers Package (2) (3) (7) (8) EH29-H780 5SGSD3 5SGSD4 5SGSD5 5SGSD6 5SGSD8 360, 90, 12H 360, 90, 12H -- -- -- 432, 108, 24 432, 108, 24 552, 138, 24 -- -- -- 696, 174, 36 696, 174, 36 696, 174, 36 696, 174, 36 -- -- -- 840, 210, 48 840, 210, 48 (33 mm) HF35-F1152 (9) (35 mm) KF40-F1517 (9) (40 mm) NF45-F1932 (9) (45 mm) Table 5: Stratix V E Device Features Features 5SEE9 5SEEB 840 952 317,000 359,200 1,268 1,437 28 28 M20K Memory Blocks 2,640 2,640 M20K Memory (MBits) 52 52 Variable Precision Multipliers (18x18) 704 704 Logic Elements (K) ALMs Registers (K) Fractional PLLs Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 Stratix V Family Plan Features 5SEE9 5SEEB Variable Precision Multipliers (27x27) 352 352 DDR3 SDRAM x72 DIMM Interfaces 6 6 9 User I/Os(1), Full-Duplex LVDS Package (2) (3) (7) (8) H40-H1517 5SEE9 5SEEB 696, 174H 696, 174H 840, 210 840, 210 (45 mm) F45-F1932 (45 mm) Table 6: Device Migration List Across All Stratix V Device Variants All devices in a specific column allow migration. Package EH29- HF35- KF35- KF40- NF40/ RF40- H40- RF43- NF45- F45H780 F1152 ( F1152 F1517/ KF40- F1517 H1517 F1760 F1932 ( F1932 10) 11) KH40- F1517 (1 2) (13) H1517 RH43H1760 (11) Stratix V GX devices A3 (10) (11) (12) (13) Yes Yes Yes Yes A4 Yes Yes Yes A5 Yes Yes Yes Yes Yes A7 Yes Yes Yes Yes Yes A9 Yes Yes AB Yes Yes All devices in this column are in the HF35 package and have twenty-four 14.1-Gbps transceivers. Different devices within this column have small differences in the overall package height. When multiple Stratix V devices with different package heights are placed on a single board, a single-piece heatsink may not cover the devices evenly. Refer to AN 670: Thermal Solutions to Address Height Variation in Stratix V Packages. The 5SGTC5/7 devices in the KF40 package have four 28.05-Gbps transceivers and thirty-two 12.5-Gbps transceivers. Other devices in this column are in the NF40 package and have forty-eight 14.1-Gbps transceivers. For more information, refer to AN 644: Migration Between Stratix V GX and Stratix V GT Devices. Stratix V Device Overview Send Feedback Altera Corporation 10 SV51001 2015.10.01 Low-Power Serial Transceivers Package B5 Yes Yes B6 Yes Yes B9 Yes BB Yes Stratix V GT devices C5 Yes C7 Yes Stratix V GS devices D3 Yes Yes D4 Yes Yes Yes Yes Yes D5 D6 Yes Yes D8 Yes Yes Stratix V E devices E9 Yes Yes EB Yes Yes Note: To verify the pin migration compatibility, use the Pin Migration View window in the Quartus II software Pin Planner. Related Information * Altera Product Selector Provides the latest information about Altera products. * For more information about verifying the pin migration compatibility, refer to the I/O Management chapter in volume 2 of the Quartus II Handbook. * For full package details, refer to the Package information datasheet for Altera devices. * AN 644: Migration Between Stratix V GX and Stratix V GT Devices * AN 670: Thermal Solutions to Address Height Variation in Stratix V Packages Low-Power Serial Transceivers Stratix V FPGAs deliver the industry's most flexible transceivers with the highest bandwidth from 600 Mbps to 28.05 Gbps, low bit error ratio (BER), and low power. Stratix V transceivers have many enhancements to improve flexibility and robustness. These enhancements include robust analog receiver clock and data recovery (CDR), advanced pre-emphasis, and equalization. In addition, each channel provides full featured embedded PCS hard IP to simplify the design, lower the power, and save valuable core resources. Stratix V transceivers are compliant with a wide range of standard protocols and data rates and are equipped with a variety of signal conditioning features to support backplane, optical module, and chip-tochip applications. Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 11 Low-Power Serial Transceivers Stratix V transceivers are located on the left and right sides of the device, as shown in the figure below. The transceivers are isolated from the rest of the chip to prevent core and I/O noise from coupling into the transceivers, thereby ensuring optimal signal integrity. The transceiver channels consist of the physical medium attachment (PMA), PCS, and high-speed clock networks. You can also configure unused transceiver PMA channels as additional transmitter PLLs. Figure 1: Stratix V GT, GX, and GS Device Chip View This figure represents one variant of a Stratix V device with transceivers. Other variants may have a different floorplan than the one shown here. PCS PCS PCS PMA Clock Networks PCS PMA Per Channel: Standard PCS, 10G PCS, PCIe Gen3 PCS Fractional PLLs Embedded HardCopy Block DSP Blocks Core Logic Fabric M20K Blocks DSP Blocks M20K Blocks DSP Blocks M20K Blocks Embedded HardCopy Block Embedded HardCopy Block Fractional PLLs Per Channel: Standard PCS, 10G PCS, PCIe Gen3 PCS Core Logic Fabric Embedded HardCopy Block PMA I/O, LVDS, and Memory Interface PCS PMA PMA PMA PMA (1) I/O, LVDS, and Memory Interface Note: (1) You can use the unused transceiver channels as additional transceiver transmitter PLLs. The following table lists the PMA features for the Stratix V transceivers. Table 7: Transceiver PMA Features Feature Chip-to-chip support Stratix V Device Overview Send Feedback Capability 28.05 Gbps and 12.5 Gbps (Stratix V GT devices) and 14.1 Gbps (Stratix V GX and GS devices) Altera Corporation 12 SV51001 2015.10.01 Low-Power Serial Transceivers Feature Capability Backplane support 12.5 Gbps (Stratix V GX, GS, and GT devices) Cable driving support PCIe cable and eSATA applications Optical module support with EDC 10G Form-factor Pluggable (XFP), Small Form-factor Pluggable (SFP+), Quad Small Form-factor Pluggable (QSFP), CXP, 100G Pluggable (CFP), 100G Form-factor Pluggable Continuous Time Linear Equalization (CTLE) Receiver 4-stage linear equalization to support high-attenua tion channels Decision Feedback Equalization (DFE) Receiver 5-tap digital equalizer to minimize losses and crosstalk Adaptive equalization (AEQ) Adaptive engine to automatically adjust equalization to compensate for changes over time PLL-based clock recovery Superior jitter tolerance versus phase interpolation techniques Programmable deserialization and word Flexible deserialization width and configurable word alignment alignment patterns Transmitter equalization (pre-emphasis) Transmitter driver 4-tap pre-emphasis and de-emphasis for protocol compliance under lossy conditions Ring and LC oscillator transmitter PLLs Choice of transmitter PLLs per channel, optimized for specific protocols and applications On-chip instrumentation (EyeQ dataeye monitor) Allows non-intrusive on-chip monitoring of both width and height of the data eye Dynamic reconfiguration Allows reconfiguration of single channels without affecting operation of other channels Protocol support Compliance with over 50 industry standard protocols in the range of 600 Mbps to 28.05 Gbps The Stratix V core logic connects to the PCS through an 8-, 10-, 16-, 20-, 32-, 40-, 64-, or 66-bit interface, depending on the transceiver data rate and protocol. Stratix V devices contain PCS hard IP to support PCIe Gen3, Gen2, Gen1, Interlaken, 10GE, XAUI, GbE, SRIO, CPRI, and GPON protocols. All other standard and proprietary protocols are supported through the transceiver PCS hard IP. The following table lists the transceiver PCS features. Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 Low-Power Serial Transceivers 13 Table 8: Transceiver PCS Features Protocol Data Rates (Gbps) Transmitter Data Path Receiver Data Path Custom PHY 0.6 to 8.5 Phase compensation FIFO, byte serializer, 8B/10B encoder, bit-slip, and channel bonding Word aligner, de-skew FIFO, rate match FIFO, 8B/10B decoder, byte deserializer, and byte ordering Custom 10G PHY 9.98 to 14.1 TX FIFO, gear box, and bit-slip RX FIFO and gear box x1, x4, x8 PCIe 2.5 and 5.0 Gen1 and Gen2 Same as custom PHY plus PIPE 2.0 interface to core logic Same as custom PHY plus PIPE 2.0 interface to core logic x1, x4, x8 PCIe Gen3 8 Phase compensation FIFO, Block synchronization, rate encoder, scrambler, gear box, and match FIFO, decoder, bit-slip de-scrambler, and phase compensation FIFO 10G Ethernet 10.3125 TX FIFO, 64/66 encoder, scrambler, and gear box RX FIFO, 64/66 decoder, de-scrambler, block synchro nization, and gear box Interlaken 4.9 to 14.1 TX FIFO, frame generator, CRC-32 generator, scrambler, disparity generator, and gear box RX FIFO, frame generator, CRC-32 checker, frame decoder, descrambler, disparity checker, block synchronization, and gearbox TX FIFO, channel bonding, and byte serializer RX FIFO, lane deskew, and byte de-serializer OTN 40 and 100 (4 +1) x 11.3 (10 +1) x 11.3 GbE 1.25 Same as custom PHY plus GbE state machine Same as custom PHY plus GbE state machine XAUI 3.125 to 4.25 Same as custom PHY plus XAUI state machine for bonding four channels Same as custom PHY plus XAUI state machine for realigning four channels SRIO 1.25 to 6.25 Same as custom PHY plus SRIO Same as custom PHY plus V2.1 compliant x2 and x4 channel SRIO V2.1compliant x2 and bonding x4 deskew state machine CPRI 0.6144 to 9.83 Same as custom PHY plus TX deterministic latency Same as custom PHY plus RX deterministic latency GPON 1.25, 2.5, and 10 Same as custom PHY Same as custom PHY Stratix V Device Overview Send Feedback Altera Corporation 14 SV51001 2015.10.01 PCIe Gen3, Gen2, and Gen1 Hard IP (Embedded HardCopy Block) PCIe Gen3, Gen2, and Gen1 Hard IP (Embedded HardCopy Block) Stratix V devices have PCIe hard IP designed for performance, ease-of-use, and increased functionality. The PCIe hard IP consists of the PCS, data link, and transaction layers. The PCIe hard IP supports Gen3, Gen2, and Gen1 end point and root port up to x8 lane configurations. The Stratix V PCIe hard IP operates independently from the core logic, which allows the PCIe link to wake up and complete link training in less than 100 ms while the Stratix V device completes loading the programming file for the rest of the FPGA. The PCIe hard IP also provides added functionality, which helps support emerging features such as Single Root I/O Virtualization (SR-IOV) or optional protocol extensions. In addition, the Stratix V device PCIe hard IP has improved end-to-end data path protection using ECC and enables device CvP. In all Stratix V devices, the primary PCIe hard IP that supports CvP is always in the bottom left corner of the device (IOBANK_B0L) when viewing the die from the top. External Memory and GPIO Each Stratix V I/O block has a hard FIFO that improves the resynchronization margin as data is transferred from the external memory to the FPGA. The hard FIFO also lowers PHY latency, resulting in higher random access performance. GPIOs include on-chip dynamic termination to reduce the number of external components and minimize reflections. On-package decoupling capacitors suppress noise on the power lines, which reduce noise coupling into the I/Os. Memory banks are isolated to prevent core noise from coupling to the output, thus reducing jitter and providing optimal signal integrity. The external memory interface block uses advanced calibration algorithms to compensate for process, voltage and temperature (PVT) variations in the FPGA and external memory components. The advanced algorithms ensure maximum bandwidth and a robust timing margin across all conditions. Stratix V devices deliver a complete memory solution with the High Performance Memory Controller II (HPMC II) and UniPHY MegaCore(R) IP that simplifies a design for today's advanced memory modules. The following table lists external memory interface block performance. Table 9: External Memory Interface Performance The specifications listed in this table are performance targets. For a current achievable performance, use the External Memory Interface Spec Estimator. Altera Corporation Interface Performance (MHz) DDR3 933 DDR2 400 QDR II 350 QDR II+ 550 RLDRAM II 533 RLDRAM III 800 Stratix V Device Overview Send Feedback SV51001 2015.10.01 Adaptive Logic Module 15 Related Information External Memory Interface Spec Estimator Adaptive Logic Module Stratix V devices use an improved ALM to implement logic functions more efficiently. The Stratix V ALM has eight inputs with a fracturable look-up table (LUT), two dedicated embedded adders, and four dedicated registers. The Stratix V ALM has the following enhancements: * Packs 6% more logic when compared with the ALM found in Stratix IV devices. * Implements select 7-input LUT-based functions, all 6-input logic functions, and two independent functions consisting of smaller LUT sizes (such as two independent 4-input LUTs) to optimize core usage. * Adds more registers (four registers per 8-input fracturable LUT). More registers allow Stratix V devices to maximize core performance at a higher core logic usage and provides easier timing closure for register-rich and heavily pipelined designs. The Quartus II software leverages the Stratix V ALM logic structure to deliver the highest performance, optimal logic usage, and lowest compile times. The Quartus II software simplifies design re-use because it automatically maps legacy Stratix designs into the new Stratix V ALM architecture. Clocking The Stratix V device core clock network is designed to support 800-MHz fabric operations and 1,066MHz and 1,600-Mbps external memory interfaces. The clock network architecture is based on Altera's proven global, quadrant, and peripheral clock structure, which is supported by dedicated clock input pins and fractional clock synthesis PLLs. The Quartus II software identifies all unused sections of the clock network and powers them down, which reduces power consumption. Fractional PLL Stratix V devices contain up to 32 fractional PLLs. You can use the fractional PLLs to reduce both the number of oscillators required on the board and the clock pins used in the FPGA by synthesizing multiple clock frequencies from a single reference clock source. In addition, you can use the fractional PLLs for clock network delay compensation, zero delay buffering, and transmitter clocking for transceivers. Fractional PLLs can be individually configured for integer mode or fractional mode with third-order delta-sigma modulation. Embedded Memory Stratix V devices contain two types of embedded memory blocks: MLAB (640-bit) and M20K (20-Kbit). MLAB blocks are ideal for wide and shallow memories. M20K blocks are useful for supporting larger memory configurations and include ECC. Stratix V Device Overview Send Feedback Altera Corporation 16 SV51001 2015.10.01 Variable Precision DSP Block Both types of memory blocks operate up to 600 MHz and can be configured to be a single- or dual-port RAM, FIFO, ROM, or shift register. These memory blocks are flexible and support a number of memory configurations, as shown in the following table. Table 10: Embedded Memory Block Configuration MLAB (640 Bits) M20K (20,480 Bits) 512x40 1Kx20 32x20 2Kx10 64x10 4Kx5 8Kx2 16Kx1 The Quartus II software simplifies design re-use by automatically mapping memory blocks from legacy Stratix devices into the Stratix V memory architecture. Variable Precision DSP Block Stratix V FPGAs feature the industry's first variable precision DSP block that you can configure to natively support signal processing with precision ranging from 9x9 to 36x36. You can independently configure each DSP block at compile time as either a dual 18x18 multiply accumulate or a single 27x27 multiply accumulate. With a dedicated 64-bit cascade bus, you can cascade multiple variable precision DSP blocks to implement even higher precision DSP functions efficiently. The following table describes how variable precision is accommodated within a DSP block or by using multiple blocks. Table 11: Variable Precision DSP Block Configurations Multiplier Size (bits) DSP Block Resources Expected Usage 9x9 1/3 of variable precision DSP block Low precision fixed point 18x18 1/2 of variable precision DSP block Medium precision fixed point 27x27 1 variable precision DSP block High precision fixed or single precision floating point 36x36 2 variable precision DSP blocks Very high precision fixed point Complex multiplication is common in DSP algorithms. One of the most popular applications of complex multipliers is the fast Fourier transform (FFT) algorithm, which increases precision requirements on only one side of the multiplier. The variable precision DSP block is designed to support the FFT algorithm with a proportional increase in DSP resources with precision growth. The following table lists complex multiplication with variable precision DSP blocks. Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 Power Management 17 Table 12: Complex Multiplication with Variable Precision DSP Blocks Multiplier Size (bits) DSP Block Resources Expected Usage 18x18 2 variable precision DSP blocks Resource optimized FFTs 18x25 3 variable precision DSP blocks Accommodate bit growth through FFT stages 18x36 4 variable precision DSP blocks Highest precision FFT stages 27x27 4 variable precision DSP blocks Single precision floating point For FFT applications with high dynamic range requirements, only the Altera(R) FFT MegaCore offers an option of single precision floating point implementation, with the resource usage and performance similar to high-precision fixed point implementations. Other new features include: * * * * * * * 64-bit accumulator, the largest in the industry Hard pre-adder, available in both 18- and 27-bit modes Cascaded output adders for efficient systolic FIR filters Internal coefficient register banks Enhanced independent multiplier operation Efficient support for single- and double-precision floating point arithmetic Ability to infer all the DSP block modes through HDL code using the Altera Complete Design Suite The variable precision DSP block is ideal for higher bit precision in high-performance DSP applications. At the same time, the variable precision DSP block can efficiently support the many existing 18-bit DSP applications, such as high definition video processing and remote radio heads. Stratix V FPGAs, with the variable precision DSP block architecture, are the only FPGA family that can efficiently support many different precision levels, up to and including floating point implementations. This flexibility results in increased system performance, reduced power consumption, and reduced architecture constraints for system algorithm designers. Power Management Stratix V devices leverage FPGA architectural features and process technology advancements to reduce total power consumption by up to 30% when compared with Stratix IV devices at the same performance level. Stratix V devices continue to provide programmable power technology, introduced in earlier generations of Stratix FPGA families. The Quartus II software PowerPlay feature identifies critical timing paths in a design and biases core logic in that path for high performance. PowerPlay also identifies non-critical timing paths and biases core logic in that path for low power instead of high performance. PowerPlay automatically biases core logic to meet performance and optimize power consumption. Additionally, Stratix V devices have a number of hard IP blocks that reduce logic resources and deliver substantial power savings when compared with soft implementations. The list includes PCIe Gen1/Gen2/ Gen3, Interlaken PCS, hard I/O FIFOs, and transceivers. Hard IP blocks consume up to 50% less power than equivalent soft implementations. Stratix V Device Overview Send Feedback Altera Corporation 18 SV51001 2015.10.01 Incremental Compilation Stratix V transceivers are designed for power efficiency. The transceiver channels consume 50% less power than Stratix IV FPGAs. The transceiver PMA consumes approximately 90 mW at 6.5 Gbps and 170 mW at 12.5 Gbps. Incremental Compilation The Quartus II software incremental compilation feature reduces compilation time by up to 70% and preserves performance to ease timing closure. Incremental compilation supports top-down, bottom-up, and team-based design flows. Incremental compilation facilitates modular hierarchical and team-based design flows where a team of designers work in parallel on a design. Different designers or IP providers can develop and optimize different blocks of the design independently, which you can then import into the top-level project. Enhanced Configuration and CvP Stratix V device configuration is enhanced for ease-of-use, speed, and cost. Stratix V devices support a new 4-bit bus active serial mode (ASx4). ASx4 supports up to a 400Mbps data rate using small low-cost quad interface Flash devices. ASx4 mode is easy to use and offers an ideal balance between cost and speed. Finally, the fast passive parallel (FPP) interface is enhanced to support 8-, 16-, and 32-bit data widths to meet a wide range of performance and cost goals. You can configure Stratix V FPGAs using CvP with PCIe. CvP with PCIe divides the configuration process into two parts: the PCIe hard IP and periphery and the core logic fabric. CvP uses a much smaller amount of external memory (flash or ROM) because CvP has to store only the configuration file for the PCIe hard IP and periphery. The 100-ms power-up to active time (for PCIe) is much easier to achieve when only the PCIe hard IP and periphery are loaded. After the PCIe hard IP and periphery are loaded and the root port is booted up, application software running on the root port can send the configuration file for the FPGA fabric across the PCIe link where the file is loaded into the FPGA. The FPGA is then fully configured and functional. The following table lists the configuration modes available for Stratix V devices. Table 13: Configuration Modes for Stratix V Devices Mode (14) (15) Fast or Slow POR Compres sion Encryption Remote Update Data Width Max Clock Rate (MHz) Max Data Rate (Mbps) Active Serial (AS) Yes Yes Yes Yes 1, 4 100 400 Passive Serial (PS) Yes Yes Yes -- 1 125 125 Fast Passive Parallel (FPP) Yes Yes Yes Yes (14) 8, 16, 32 125 (15) 3,000 Remote update support with the Parallel Flash Loader. The maximum clock rate is 125 MHz for x8 and x16 FPP, but only 100 MHz for x32 FPP. Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 19 Partial Reconfiguration Mode Fast or Slow POR Compres sion Encryption Remote Update Data Width Max Clock Rate (MHz) Max Data Rate (Mbps) CvP -- -- Yes Yes 1, 2, 4, 8 -- 3,000 Partial Reconfigura tion -- -- Yes Yes 16 125 2,000 JTAG -- -- -- -- 1 33 33 Partial Reconfiguration Partial reconfiguration allows you to reconfigure part of the FPGA while other sections continue to operate. This capability is required in systems where uptime is critical because partial reconfiguration allows you to make updates or adjust functionality without disrupting services. While lowering power and cost, partial reconfiguration also increases the effective logic density by removing the necessity to place FPGA functions that do not operate simultaneously. Instead, you can store these functions in external memory and load them as required. This capability reduces the size of the FPGA by allowing multiple applications on a single FPGA, saving board space and reducing power. You no longer need to know all the details of the FPGA architecture to perform partial reconfiguration. Altera simplifies the process by extending the power of incremental compilation used in earlier versions of the Quartus II software. Partial reconfiguration is supported in the following configurations: * Partial reconfiguration through the FPP x16 I/O interface * CvP * Soft internal core, such as the Nios(R) II processor. Automatic Single Event Upset Error Detection and Correction Stratix V devices offer single event upset (SEU) error detection and correction circuitry that is robust and easy to use. The correction circuitry includes protection for configuration RAM (CRAM) programming bits and user memories. The CRAM is protected by a continuously running cyclical redundancy check (CRC) error detection circuit with integrated ECC that automatically corrects one or double-adjacent bit errors and detects higher order multi-bit errors. When more than two errors occur, correction is available through a core programming file reload that refreshes a design while the FPGA is operating. The physical layout of the FPGA is optimized to make the majority of multi-bit upsets appear as independent single- or double-adjacent bit errors, which are automatically corrected by the integrated CRAM ECC circuitry. In addition to the CRAM protection in Stratix V devices, user memories include integrated ECC circuitry and are layout-optimized to enable error detection of 3-bit errors and correction for 2-bit errors. Stratix V Device Overview Send Feedback Altera Corporation 20 SV51001 2015.10.01 HardCopy V Devices HardCopy V Devices HardCopy V ASICs offer the lowest risk and lowest total cost in ASIC designs with embedded high-speed transceivers. You can prototype and debug with Stratix V FPGAs, then use HardCopy V ASICs for volume production. The proven turnkey process creates a functionally equivalent HardCopy V ASIC with or without embedded transceivers to meet all timing constraints in as little as 12 weeks. The powerful combination of Stratix V FPGAs and HardCopy V ASICs can help you meet your design requirements. Whether you plan for ASIC production and require the lowest-risk, lowest-cost path from specification to production or require a cost reduction path for your FPGA-based systems, Altera provides the optimal solution for power, performance, and device bandwidth. Ordering Information This section describes ordering information for Stratix V GT, GX, GS, and E devices. The following figure shows the ordering codes for Stratix V devices. Figure 2: Ordering Information for Stratix V Devices Embedded Hard IP (1) Block Variant M : Mainstream E : Extended 5S Family Signature 5S : Stratix V GX M Transceiver Count Package Type E H K N R F : FineLine BGA H : Hybrid FineLine BGA : : : : : 12 24 36 48 66 A5 Family Variant GX : 14.1-Gbps transceivers GT : 28.05-Gbps transceivers GS : DSP-Oriented E : Highest logic density, no transceivers Member Code GX GT GS E A3 C5 D3 E9 A4 C7 D4 EB A5 D5 A7 D6 A9 D8 AB B5 B6 B9 BB Operating Temperature C : Commercial (0 to 85C) I : Industrial (-40 to 100C) K 3 F 35 C Ball Array Dimension Corresponds to pin count Transceiver PMA Speed Grade 1 (fastest) 2 3 (3) 29 35 40 43 45 : : : : : 780 pins 1,152 pins 1,517 pins 1,760 pins 1,932 pins 2 L N YY ES Optional Suffix (2) L : Low-power device N : Lead-free packaging YY : Special order devices (3) ES : Engineering sample silicon Transceiver PCS and FPGA Fabric Speed Grade 1 (fastest) 2 3 4 Notes: (1) Stratix V mainstream "M" devices have exactly one instantiation of PCI Express hard IP. Extended "E" devices have either two or four instantiations of PCI Express hard IP, depending on the device and package combination. For non-transceiver Stratix V devices, this character does not appear in the part number. (2) You can select one or two of these options, or you can ignore these options. (3) YY parts can support transceiver operations up to 10.3125 Gbps. Altera Corporation Stratix V Device Overview Send Feedback SV51001 2015.10.01 Document Revision History 21 Document Revision History Table 14: Document Revision History Date Version Changes Made October 2015 2015.10.01 Changed heading in the "Ordering Information for Stratix V Devices" figure to "Embedded Hard IP Block Variant". January 2015 2015.01.15 * Added ALM counts and device package sizes to the four device family features tables. * In the "Stratix V GX Device Features" table, changed the number of DDR3 SDRAM x72 DIMM Interfaces for the 5SGXA3 and 5SGXA4 devices to 6. Also added footnote to this row. * Deleted listings for 40GBASE-R and 100GBASE-R Ethernet from the "Transceiver PCS Features" table in the "Low-Power Serial Transceivers" section. * Added YY code to the Optional Suffix category in the "Ordering Information for Stratix V Devices" figure. April 2014 2014.04.08 Updated "Variable precision DSP blocks" section of the "Features Summary" table to 600 MHz performance. April 2014 2014.04.03 * Updated GPIOs section of the "Features Summary" table to 1.6 Gbps LVDS. * Changed clocking speed to 800 MHz in the "Features Summary" and the "Clocking" sections. January 2014 2014.01.10 * Added link to Altera Product Selector in the "Stratix V Family Plan" section. * Corrected DDR2 performance from 533 MHz to 400 MHz. * Updated "Device Migration List Across All Stratix V Device Variants" table. May 2013 2013.05.06 * Added link to the known document issues in the Knowledge Base. * Updated backplane support information. * Added a note about the number of I/Os to each table in the "Stratix V Family Plan" section. * Updated the "Ordering Information for Stratix V Devices" figure. December 2012 3.1 * Updated Table 6 and Table 13. * Updated Figure 2. Stratix V Device Overview Send Feedback Altera Corporation 22 SV51001 2015.10.01 Document Revision History Date Version Changes Made June 2012 3.0 * Converted chapter to stand-alone format and removed from the Stratix V handbook. * Changed title of document to Stratix V Device Overview * Updated Figure 1. * Minor text edits. February 2012 2.3 * Updated Table 1-2, Table 1-3, Table 1-4, and Table 1-5. * Updated Figure 1-2. * Updated "Automatic Single Event Upset Error Detection and Correction" on page 18. * Minor text edits. December 2011 2.2 Updated Table 1-2 and Table 1-3. November 2011 2.1 * Changed Stratix V GT transceiver speed from 28 Gbps to 28.05 Gbps. * Updated Figure 1-2. November 2011 2.0 * Revised Figure 1-2. * Updated Table 1-5. * Minor text edits. September 2011 1.10 Updated Table 1-2, Table 1-3, and Table 1-4. September 2011 1.9 * Updated Table 1-1, Table 1-2, Table 1-3, Table 1-4, and Table 1-5. * Updated Figure 1-2. * Minor text edits. June 2011 1.8 Changed 800 MHz to 1,066 MHz for DDR3 in Table 1-8 and in text. May 2011 1.7 * For Stratix V GT devices, changed 14.1 Gbps to 12.5 Gbps. * Changed Configuration via PCIe to Configuration via Protocol * Updated Table 1-1, Table 1-2, Table 1-3, Table 1-4, Table 1-5, and Table 1-6. * Chapter moved to Volume 1. January 2011 1.6 * * * * December 2010 1.5 Updated Table 1-1. Altera Corporation Added Stratix V GS information. Updated tables listing device features. Added device migration information. Updated 12.5-Gbps transceivers to 14.1-Gbps transceivers Stratix V Device Overview Send Feedback SV51001 2015.10.01 Document Revision History Date Version Changes Made December 2010 1.4 * * * * July 2010 1.3 Updated Table 1-5 July 2010 1.2 * Updated "Features Summary" on page 1-2 * Updated resource counts in Table 1-1 and Table 1-2 * Removed "Interlaken PCS Hard IP" and "10G Ethernet Hard IP" * Added "40G and 100G Ethernet Hard IP (Embedded HardCopy Block)" on page 1-7 * Added information about Configuration via PCIe * Added "Partial Reconfiguration" on page 1-12 * Added "Ordering Information" on page 1-14 May 2010 1.1 Updated part numbers in Table 1-1 and Table 1-2 April 2010 1.0 Initial release Stratix V Device Overview Send Feedback 23 Updated Table 1-1. Updated Figure 1-2. Converted to the new template. Minor text edits. Altera Corporation Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Altera: 5SGXEB5R2F40C2N 5SGSMD3E2H29I3L 5SGSED6N1F45I2N 5SGSED8K1F40I2N 5SGXEBBR2H43I3L 5SGXEA3K2F40C1N 5SGXEA9K3H40I3LN 5SGXEB9R2H43I2N 5SGXMA4H2F35I3LN 5SGXMA9N3F45I3LN 5SGSMD6K2F40C2LN 5SGSMD5K1F40C2L 5SGSMD4H2F35C3N 5SGXMA7N1F40C2LN 5SGXMA5H3F35I3LN 5SGSMD3H2F35I2N 5SGXEA4K1F35C2LN 5SGXMA4K1F40C2N 5SGXMA9N3F45C4N 5SGSMD4E2H29C2LN 5SGXMBBR2H43I2LN 5SGXEA7K3F35C2NES 5SGXMA5K3F35C3N 5SGXEB6R2F43C3ES 5SGXEA7N1F45C2N 5SGSMD6N2F45I2N 5SGXEA5H2F35I2L 5SGXEA7H2F35I3 5SGXEA5K3F35I3LN 5SGXMA7N2F40C1N 5SGXMA3E3H29I4N 5SGXEA7N3F40C2LN 5SGXEB5R3F40C2LN 5SGSMD3E1H29C2L 5SGXEA7N2F40C2NES 5SGXEA4K2F40I2LN 5SGXMA7H1F35C2LN 5SGXEA7N3F40C3 5SEEBH40C2LN 5SEEBH40I4N 5SGXMA7N3F40I3 5SGSMD3E3H29C2LN 5SGSMD5H3F35I4 5SGXEA5N2F40I2N 5SGXMA7N2F45C1N 5SGXMA3H3F35C4N 5SGXMABN3F45C4N 5SGXEA7N2F45C3N 5SGXEA7H3F35I3LN 5SGXMA5K2F35C2N 5SGXEA7H3F35C2ES 5SGSED8N3F45I3LN 5SGXEA9K2H40I3N 5SGXEABN3F45I3L 5SGSMD5K2F40I3N 5SGXEA9N3F45I3LN 5SGXEA3H3F35I3LN 5SGSMD8N3F45C3N 5SGXEA4H1F35C2N 5SGXMA7K2F40I3N 5SGSED6K2F40C2LN 5SGXMA5N2F45C3N 5SGXEB9R2H43I3N 5SGXMA7N3F45I4N 5SGSED8N1F45C2LN 5SGSMD5K1F40I2N 5SGXMA7N2F40I2LN 5SGXMB6R2F43C2N 5SGXMA3E2H29I3LN 5SGXEA7K2F40C2LN 5SGXEA7N3F45C4N 5SGSMD8N2F45I2N 5SGXEA7N2F40I3 5SGXEA7K1F35C2L 5SGXEA7K2F40C3ES 5SGXMA3E1H29C2N 5SGSMD6K2F40I2N 5SGSMD8N1F45C2LN 5SGXMB5R3F40I3N 5SGXEA9N2F45I2N 5SGXEA3K3F35C2L 5SGTMC7K2F40I3N 5SGSMD4E2H29I3N 5SGSED6N3F45C2N 5SGSMD3H2F35I3L 5SGXMA9K3H40I3N 5SGXEB6R2F40C3 5SGXMB6R1F43C2LN 5SGSMD3H3F35C3N 5SGXEA4K2F35C2LN 5SGSMD4E2H29C2N 5SGSMD4K2F40I3LN 5SGXMA3K3F35I3N 5SGXEA5K2F35C2L 5SGXMA7N3F45C2LN 5SGSMD3H2F35C2LN 5SGXMA4K3F35C2LN 5SGXEA7K2F35C3ES 5SGXMB6R3F43I4N 5SGXMA7N2F45C3