Soft microprocessor
This is missing information about three OpenPOWER cores, one Moxie core, both at RTL level. (July 2020) |
A soft microprocessor (also called softcore microprocessor or a soft processor) is a microprocessor core that can be wholly implemented using logic synthesis. It can be implemented via different semiconductor devices containing programmable logic (e.g., FPGA, CPLD), including both high-end and commodity variations.[1]
Most systems, if they use a soft processor at all, only use a single soft processor. However, a few designers tile as many soft cores onto an FPGA as will fit.[2] In those multi-core systems, rarely used resources can be shared between all the cores in a cluster.
While many people put exactly one soft microprocessor on a FPGA, a sufficiently large FPGA can hold two or more soft microprocessors, resulting in a multi-core processor. The number of soft processors on a single FPGA is limited only by the size of the FPGA.[3] Some people have put dozens or hundreds of soft microprocessors on a single FPGA.[4][5][6][7][8] This is one way to implement massive parallelism in computing and can likewise be applied to in-memory computing.
A soft microprocessor and its surrounding peripherals implemented in a FPGA is less vulnerable to obsolescence than a discrete processor.[9][10][11]
Core comparison
Processor | Developer | Open source | Bus support | Notes | Project home | Description language |
---|---|---|---|---|---|---|
based on the ARM instruction set architecture | ||||||
Amber | Conor Santifort | LGPLv2.1 | Wishbone | ARMv2a 3-stage or 5-stage pipeline | Project page at Opencores | Verilog |
Cortex-M1 | ARM | No | [6] | 70–200 MHz, 32-bit RISC | [7] | Verilog |
based on the AVR instruction set architecture | ||||||
Navré | Sébastien Bourdeauducq | Yes | Direct SRAM | Atmel AVR-compatible 8-bit RISC | Project page at Opencores | Verilog |
pAVR | Doru Cuturela | Yes | Atmel AVR-compatible 8-bit RISC | Project page at Opencores | VHDL | |
softavrcore | Andras Pal | Yes | Standard AVR buses (core-coupled I/O, synchronous SRAM, synchronous program ROM) | Atmel AVR-compatible 8-bit RISC (up to AVR5), peripherals and SoC features included | Project page at Opencores | Verilog |
based on the MicroBlaze instruction set architecture | ||||||
AEMB | Shawn Tan | Yes | Wishbone | MicroBlaze EDK 3.2 compatible | AEMB | Verilog |
MicroBlaze | Xilinx | No | PLB, OPB, FSL, LMB, AXI4 | Xilinx MicroBlaze | ||
OpenFire | Virginia Tech CCM Lab | Yes | OPB, FSL | Binary compatible with the MicroBlaze | [8][12] | Verilog |
SecretBlaze | LIRMM, University of Montpellier / CNRS | Yes | Wishbone | MicroBlaze ISA, VHDL | SecretBlaze | VHDL |
based on the MCS-51 instruction set architecture | ||||||
MCL51 | MicroCore Labs | Yes | Ultra-small-footprint microsequencer-based 8051 core | 312 Artix-7 LUTs. Quad-core 8051 version is 1227 LUTs. | MCL51 Core | |
TSK51/52 | Altium | Royalty-free | Wishbone / Intel 8051 | 8-bit Intel 8051 instruction set compatible, lower clock cycle alternative | Embedded Design on Altium Wiki | |
based on the MIPS instruction set architecture | ||||||
BERI | University of Cambridge | BSD | MIPS | Project page | Bluespec | |
Dossmatik | René Doss | CC BY-NC 3.0, except commercial applicants have to pay a licence fee. | Pipelined bus | MIPS I instruction set pipeline stages | Dossmatik | VHDL |
TSK3000A | Altium | Royalty-free | Wishbone | 32-bit R3000-style RISC modified Harvard-architecture CPU | Embedded Design on Altium Wiki | |
based on the PicoBlaze instruction set architecture | ||||||
PacoBlaze | Pablo Bleyer | Yes | Compatible with the PicoBlaze processors | PacoBlaze | Verilog | |
PicoBlaze | Xilinx | No | Xilinx PicoBlaze | VHDL, Verilog | ||
based on the RISC-V instruction set architecture | ||||||
f32c | University of Zagreb | BSD | AXI, SDRAM, SRAM | 32-bit, RISC-V / MIPS ISA subsets (retargetable), GCC toolchain | f32c | VHDL |
NEORV32 | Stephan Nolting | BSD | Wishbone b4, AXI4 | rv32[i/e] [m] [a] [c] [b] [u] [Zfinx] [Zicsr] [Zifencei], RISC-V-compliant, CPU & SoC available, highly customizable, GCC toolchain | GitHub OpenCores | VHDL |
VexRiscv | SpinalHDL | Yes | AXI4 / Avalon | 32-bit, RISC-V, up to 340 MHz on Artix 7. Up to 1.44 DMIPS/MHz. | https://github.com/SpinalHDL/VexRiscv | VHDLVerilog (SpinalHDL) |
based on the SPARC instruction set architecture | ||||||
LEON2(-FT) | ESA | Yes | AMBA2 | SPARC V8 | ESA | VHDL |
LEON3/4 | Aeroflex Gaisler | Yes | AMBA2 | SPARC V8 | Aeroflex Gaisler | VHDL |
OpenPiton | Princeton Parallel Group | Yes | Manycore SPARC V9 | OpenPiton | Verilog | |
OpenSPARC T1 | Sun | Yes | 64-bit | OpenSPARC.net | Verilog | |
Tacus/PIPE5 | TemLib | Yes | Pipelined bus | SPARC V8 | TEMLIB | VHDL |
based on the x86 instruction set architecture | ||||||
CPU86 | HT-Lab | Yes | 8088-compatible CPU in VHDL | cpu86 | VHDL | |
MCL86 | MicroCore Labs | Yes | 8088 BIU provided. Others easy to create. | Cycle accurate 8088/8086 implemented with a microsequencer. Less than 2% utilization of Kintex-7. | MCL86 Core | |
s80x86 | Jamie Iles | GPLv3 | Custom | 80186-compatible GPLv3 core | s80x86 | SystemVerilog |
Zet | Zeus Gómez Marmolejo | Yes | Wishbone | x86 PC clone | Zet | Verilog |
ao486 | Aleksander Osman | 3-Clause BSD | Avalon | i486 SX compatible core | ao486 | Verilog |
based on the PowerPC/Power instruction set architecture | ||||||
PowerPC 405S | IBM | No | CoreConnect | 32-bit PowerPC v.2.03 Book E | IBM | Verilog |
PowerPC 440S | IBM | No | CoreConnect | 32-bit PowerPC v.2.03 Book E | IBM | Verilog |
PowerPC 470S | IBM | No | CoreConnect | 32-bit PowerPC v.2.05 Book E | IBM | Verilog |
Microwatt | IBM/OpenPOWER | CC-BY 4.0 | Wishbone | 64-bit PowerISA 3.0 proof of concept | Microwatt @ Github | VHDL |
Chiselwatt | IBM/OpenPOWER | CC-BY 4.0 | Wishbone | 64-bit PowerISA 3.0 | Chiselwatt @ Github | Chisel |
Libre-SOC | Libre-SoC.org | BSD/LGPLv2+ | Wishbone | 64-bit PowerISA 3.0. CPU/GPU/VPU implementation and custom vector instructions | Libre-SoC.org | python/nMigen |
A2I | IBM/OpenPOWER | CC-BY 4.0 | Custom PBus | 64-bit PowerPC 2.6 Book E. In order core | A2I @ Github | VHDL |
A2O | IBM/OpenPOWER | CC-BY 4.0 | Custom PBus | 64-bit PowerPC 2.7 Book E. Out of order core | A2O @ Github | Verilog |
Other architectures | ||||||
ARC | ARC International, Synopsys | No | 16/32/64-bit ISA RISC | DesignWare ARC | Verilog | |
ERIC5 | Entner Electronics | No | 9-bit RISC, very small size, C-programmable | ERIC5 Archived 2016-03-05 at the Wayback Machine | VHDL | |
H2 CPU | Richard James Howe | MIT | Custom | 16-bit Stack Machine, designed to execute Forth directly, small | H2 CPU | VHDL |
Instant SoC | FPGA Cores | No | Custom | 32-bit RISC-V M Extension, SoC defined by C++ | Instant SoC | VHDL |
JOP | Martin Schoeberl | Yes | SimpCon / Wishbone (extension) | Stack-oriented, hard real-time support, executing Java bytecode directly | Jop | VHDL |
LatticeMico8 | Lattice | Yes | Wishbone | LatticeMico8 | Verilog | |
LatticeMico32 | Lattice | Yes | Wishbone | LatticeMico32 | Verilog | |
LXP32 | Alex Kuznetsov | MIT | Wishbone | 32-bit, 3-stage pipeline, register file based on block RAM | lxp32 | VHDL |
MCL65 | MicroCore Labs | Yes | Ultra-small-footprint microsequencer-based 6502 core | 252 Spartan-7 LUTs. Clock cycle-exact. | MCL65 Core | |
MRISC32-A1 | Marcus Geelnard | Yes | Wishbone, B4/pipelined | 32-bit RISC/Vector CPU implementing the MRISC32 ISA | MRISC32 | VHDL |
NEO430 | Stephan Nolting | Yes | Wishbone (Avalon, AXI4-Lite) | 16-bit MSP430 ISA-compatible, very small size, many peripherals, highly customizable | NEO430 | VHDL |
Nios, Nios II | Altera | No | Avalon | Altera Nios II | Verilog | |
OpenRISC | OpenCores | Yes | Wishbone | 32-bit; done in ASIC, Actel, Altera, Xilinx FPGA. | [9] | Verilog |
SpartanMC | TU Darmstadt / TU Dresden | Yes | Custom (AXI support in development) | 18-bit ISA (GNU Binutils / GCC support in development) | SpartanMC | Verilog |
SYNPIC12 | Miguel Angel Ajo Pelayo | MIT | PIC12F compatible, program synthesised in gates | nbee.es | VHDL | |
xr16 | Jan Gray | No | XSOC abstract bus | 16-bit RISC CPU and SoC featured in Circuit Cellar Magazine #116-118 | XSOC/xr16 | Schematic |
YASEP | Yann Guidon | AGPLv3 | Direct SRAM | 16 or 32 bits, RTL in VHDL & asm in JS, microcontroller subset : ready | yasep.org (Firefox required) | VHDL |
ZipCPU | Gisselquist Technology | GPLv3 | Wishbone, B4/pipelined | 32-bit CPU targeted for minimal FPGA resource usage | zipcpu.com | Verilog |
ZPU | Zylin AS | Yes | Wishbone | Stack based CPU, configurable 16/32 bit datapath, eCos support | Zylin CPU | VHDL |
RISC5 | Niklaus Wirth | Yes | Custom | Running a complete graphical Oberon System including an editor and compiler. Software can be developed and ran on the same FPGA board. | www.projectoberon.com/ | Verilog |
See also
- System-on-a-chip (SoC)
- Network-on-a-chip (NoC)
- Reconfigurable computing
- VHDL
- Verilog
- Hardware acceleration
References
- ^ http://www.dailycircuitry.com/2011/10/zet-soft-core-running-windows-30.html Archived 2018-10-13 at the Wayback Machine "Zet soft core running Windows 3.0" by Andrew Felch 2011
- ^ "Embedded.com - FPGA Architectures from 'A' to 'Z' : Part 2". Archived from the original on 2007-10-08. Retrieved 2012-08-18. "FPGA Architectures from 'A' to 'Z'" by Clive Maxfield 2006
- ^ MicroBlaze Soft Processor: Frequently Asked Questions Archived 2011-10-27 at the Wayback Machine
- ^ István Vassányi. "Implementing processor arrays on FPGAs". 1998. [1]
- ^ Zhoukun WANG and Omar HAMMAMI. "A 24 Processors System on Chip FPGA Design with Network on Chip". [2]
- ^ John Kent. "Micro16 Array - A Simple CPU Array" [3]
- ^ Kit Eaton. "1,000 Core CPU Achieved: Your Future Desktop Will Be a Supercomputer". 2011. [4]
- ^ "Scientists Squeeze Over 1,000 Cores onto One Chip". 2011. [5] Archived 2012-03-05 at the Wayback Machine
- ^ Joe DeLaere. ""Top 7 Reasons to Replace Your Microcontroller with a MAX 10 FPGA"" (PDF).
- ^ John Swan; Tomek Krzyzak. (2008). ""Using FPGAs to avoid microprocessor obsolescence"". Archived from the original on 2016-10-13.
- ^ Staff (2010-02-03). "FPGA processor IP needs to be supported". Electronics Weekly. Retrieved 2019-04-03.
- ^ "Overview :: OpenFire Processor Core :: OpenCores".
External links
- Soft CPU Cores for FPGA
- Detailed Comparison of 12 Soft Microprocessors
- FPGA CPU News
- Freedom CPU website
- Microprocessor cores on Opencores.org (Expand the "Processor" tab)
- NikTech 32 bit RISC Microprocessor MANIK.