Cyclone V SoC FPGA系列主要优势和特性以及架构图

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  Altera公司的Cyclone V SoC FPGA 系列基于28nm低功耗(LP)工艺,提供需要5G收发器应用的最低功耗,和以前的产品检验相比,功耗降低40%.器件集成了基于ARM处理器的硬件处理器系统(HPS),具有更有效的逻辑综合功能,收发器系列和SoC FPGA系列,从而降低系统功耗,成本和产品上市时间,主要用在工业,无线和有线通信,军用设备和汽车市场。本文介绍了Cyclone V SoC FPGA 系列主要优势和特性,架构图,HPS特性以及Cyclone V SX SoC开发板主要特性,框图和电路图。

  Altera’s Cyclone® V FPGAs provide the industry’s lowest system cost and power, along with performance levels that make the device family ideal for differenTIaTIng your high-volume applicaTIons. You’ll get up to 40 percent lower total power compared with the previous generaTIon, efficient logic integration capabilities, integrated transceiver variants, and SoC FPGA variants with an ARM®-based hard processor system (HPS)。

  The Cyclone® V devices are designed to simultaneously accommodate the shrinking power consumption, cost, and time-to-market requirements; and the increasing bandwidth requirements for high-volume and cost-sensitive applications.

  Enhanced with integrated transceivers and hard memory controllers, the Cyclone® V devices are suitable for applications in the industrial, wireless and wireline, military, and automotive markets.

  Built on the 28-nm low power (LP) process technology, Altera’s Cyclone V FPGAs deliver the lowest power solution for applications requiring up to 5G transceivers. Compared to previous generations, Cyclone V FPGAs offer a 40-percent power reduction, with a balance of power reduction from all areas.

Cyclone V SoC FPGA系列主要优势和特性以及架构图,Cyclone V SoC FPGA系列主要优势和特性以及架构图,第2张

图1.Cyclone V SoC FPGA架构图

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第3张

  图2.Cyclone V SoC框图

  硬件处理器系统(HPS)特性:

  925 MHz, dual-core ARM® Cortex™-A9 MPCore™ processor

  Each processor core includes:

  32 KB of L1 instruction cache, 32 KB of L1 data cache

  Single- and double-precision floating-point unit and NEONTM media engine

  CoreSightTM debug and trace technology

  512 KB of shared L2 cache

  64 KB of scratch RAM

  Multiport SDRAM controller with support for DDR2, DDR3, and LPDDR2 and optional error correction code (ECC) support

  8-channel direct memory access (DMA) controller

  QSPI flash controller

  NAND flash controller with DMA

  SD/SDIO/MMC controller with DMA

  2x 10/100/1000 Ethernet media access control (MAC) with DMA

  2x USB On-The-Go (OTG) controller with DMA

  4x I2C controller

  2x UART

  2x serial peripheral interface (SPI) master peripherals, 2x SPI slave peripherals

  7x general-purpose timers

  4x watchdog timers

  High-Bandwidth HPS-to-FPGA Interconnect Backbone

  Although the HPS and the FPGA can operate independently, they are tightly coupled via a high-bandwidth system interconnect built from high-performance ARM AMBA® AXITM bus bridges. IP bus masters in the FPGA fabric have access to HPS bus slaves via the FPGA-to-HPS interconnect. Similarly, HPS bus masters have access to bus slaves in the FPGA fabric via the HPS-to-FPGA bridge. Both bridges are AMBA AXI-3 compliant and support simultaneous read and write transactions. Up to six FPGA masters can share the HPS SDRAM controller with the processor. Additionally, the processor can be used to configure the FPGA fabric under program control via a dedicated 32 bit configuration port.

  HPS-to-FPGA: configurable 32, 64, or 128 bit AMBA AXI interface

  FPGA-to-HPS: configurable 32, 64, or 128 bit AMBA AXI interface

  FPGA-to-HPS SDRAM controller: up to 6 masters (command ports), 4x 64 bit read data ports and 4x 64 bit write data ports

  32 bit FPGA configuration manager

  Cyclone V 系列产品主要优势:

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Cyclone V SoC FPGA系列主要优势和特性以及架构图,第5张

Cyclone V 系列产品主要特性:

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Cyclone V SoC FPGA系列主要优势和特性以及架构图,第7张

  Cyclone V SX SoC开发板

  The Altera® Cyclone® V SoC Development Kit offers a quick and simple approach to develop custom ARM® processor-based SoC designs accompanied by Altera’s low-power, low-cost Cyclone V FPGA fabric.

  Cyclone V SX SoC开发板主要特性:

  Processor and FPGA prototyping and power measurement

  Industrial networking protocols

  Motor control applications*

  Acceleration of image- and video-processing applications*

  PCI Express® (PCIe®) x4 lane with ~1,000 MBps transfer rate (endpoint or rootport)

  *Application-specific daughtercards, available separately, supporting a wide range of I/O and interface standards.

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第8张

  图3. Cyclone V SX SoC开发板外形图

  Cyclone V SX SoC开发板包含:

  Cyclone V SX development board

  Featured devices

  Cyclone V SX SoC—5CSXFC6D6F31C6N (SoC)

  MAX® V CPLD—5M2210ZF256C4N (system controller)

  MAX II CPLD—EPM570GF100 (embedded USB-BlasterTM II cable)

  FPGA configuration sources

  Embedded USB-Blaster II (JTAG) cable

  EPCQ flash (PFL)

  Hard processor system (HPS)

  FPGA memory

  1 GB DDR3 SDRAM (32 bit)

  FPGA I/O interfaces

  2X 10/100 Megabit Ethernet PHYs (EtherCAT)

  PCIe Gen1 x4 female connector

  Universal high-speed mezzanine card (HSMC)—x4 transceivers, x16 TX LVDS, x16 RX LVDS

  One serial digital interface (SDI) channel

  Four SMAs for one transceiver channel

  4X push buttons

  2X switches

  4X LEDs

  HPS boot sources

  128 MB quad serial peripheral interface (SPI) flash memory

  Removable micro-SD card flash memory

  FPGA

  HPS memory

  1 GB DDR3 SDRAM (32 bit) with error correction code (ECC)

  128 MB quad SPI flash memory

  Micro-SD card socket with 4 GB micro-SD card flash device

  HPS I/O interfaces

  1X USB 2.0 On-the-Go (OTG)

  1X 10/100/1000 Megabit Ethernet (10MbE/100MbE/1000MbE)

  1X CAN

  1X UART (UART to USB bridge)

  1X real-time clock (with battery backup)

  1X two-line text LCD

  1-/2-channel, 20 bit delta-sigma analog-to-digital converter (Linear Technology LTC2422)

  4X push buttons

  4X switches

  4X LEDs

  Clocking

  Four-output programmable clock generator for FPGA reference clock inputs

  125 MHz LVDS oscillator for FPGA reference clock input

  148.5 MHz LVDS programmable voltage-controlled crystal oscillator (VCXO) for FPGA reference clock input

  50 MHz single-ended oscillator for FPGA and MAX V FPGA clock input

  100 MHz single-ended oscillator for MAX V FPGA configuration clock input

  SMA input for HPS clock

  Power

  Laptop DC input 14—20 V adapter

  System monitoring circuit

  Power (voltage, current, wattage)

  HSMC breakout board

  HSMC loopback board

  Mechanical

  Board dimensions—8.19” x 5.22”

  Cyclone V SX FPGA Development Kit software content (downloadable from Table 2)

  Design examples

  Board test system (BTS)*

  Golden System Reference Design with Board Update Portal web server

  Complete documentation (see Table 2)

  SoC Embedded Design Suite Standard Edition

  ARM Development Studio 5 (DS-5™) Altera Edition Toolkit

  Hardware-to-software handoff tools

  Linux run-time software for application development

  SoC hardware libraries for firmware development

  Application examples

  Free software supported by Quartus® Prime Lite and Standard Edition softwareCyclone V SoC FPGA系列主要优势和特性以及架构图,第9张

图4. Cyclone V SX SoC开发板框图

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第10张

图5. Cyclone V SX SoC开发板电路图(1)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第11张

图6. Cyclone V SX SoC开发板电路图(2)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第12张

图7. Cyclone V SX SoC开发板电路图(3)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第13张

图8. Cyclone V SX SoC开发板电路图(4)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第14张

图9. Cyclone V SX SoC开发板电路图(5)

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图10. Cyclone V SX SoC开发板电路图(6)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第16张

图11. Cyclone V SX SoC开发板电路图(7)

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图12. Cyclone V SX SoC开发板电路图(8)

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图13. Cyclone V SX SoC开发板电路图(9)

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图14. Cyclone V SX SoC开发板电路图(10)

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图15. Cyclone V SX SoC开发板电路图(11)

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图16. Cyclone V SX SoC开发板电路图(12)

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图17. Cyclone V SX SoC开发板电路图(13)

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图18. Cyclone V SX SoC开发板电路图(14)

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图19. Cyclone V SX SoC开发板电路图(15)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第25张

图20. Cyclone V SX SoC开发板电路图(16)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第26张


图21. Cyclone V SX SoC开发板电路图(17)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第27张


图22. Cyclone V SX SoC开发板电路图(18)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第28张


图23. Cyclone V SX SoC开发板电路图(19)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第29张


图24. Cyclone V SX SoC开发板电路图(20)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第30张


图25. Cyclone V SX SoC开发板电路图(21)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第31张


图26. Cyclone V SX SoC开发板电路图(22)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第32张


图27. Cyclone V SX SoC开发板电路图(23)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第33张


图28. Cyclone V SX SoC开发板电路图(24)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第34张


图29. Cyclone V SX SoC开发板电路图(25)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第35张


图30. Cyclone V SX SoC开发板电路图(26)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第36张


图31. Cyclone V SX SoC开发板电路图(27)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第37张


图32. Cyclone V SX SoC开发板电路图(28)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第38张


图33. Cyclone V SX SoC开发板电路图(29)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第39张


图34. Cyclone V SX SoC开发板电路图(30)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第40张


图35. Cyclone V SX SoC开发板电路图(31)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第41张


图36. Cyclone V SX SoC开发板电路图(32)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第42张


图37. Cyclone V SX SoC开发板电路图(33)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,第43张


图38. Cyclone V SX SoC开发板电路图(34)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,Cyclone V SoC FPGA系列主要优势和特性以及架构图,第44张


图39. Cyclone V SX SoC开发板电路图(35)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,Cyclone V SoC FPGA系列主要优势和特性以及架构图,第45张

图40. Cyclone V SX SoC开发板电路图(36)

Cyclone V SoC FPGA系列主要优势和特性以及架构图,Cyclone V SoC FPGA系列主要优势和特性以及架构图,第46张

图41. Cyclone V SX SoC开发板电路图(37)

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