2.9 KiB
PicoRV32 - A Size-Optimized RISC-V CPU
PicoRV32 is a CPU core that implements the RISC-V RV32I Instruction Set.
Tools (gcc, binutils, etc..) can be obtained via the RISC-V Website.
PicoRV32 is free and open hardware licensed under the ISC license (a license that is similar in terms to the MIT license or the 2-clause BSD license).
Features and Typical Applications:
- Small (~1000 LUTs in a 7-Series Xilinx FGPA)
- High fMAX (>250 MHz on 7-Series Xilinx FGPAs)
- Selectable native memory interface or AXI4-Lite master
This CPU is meant to be used as auxiliary processor in FPGA designs and ASICs. Due to its high fMAX it can be integrated in most existing designs without crossing clock domains. When operated on a lower frequency, it will have a lot of timing slack and thus can be added to a design without compromising timing closure.
For even smaller size it is possible disable support for registers x16
..x31
as
well as RDCYCLE[H]
, RDTIME[H]
, and RDINSTRET[H]
instructions, turning the
processor into an RV32E core.
Note: In architectures that implement the register file in dedicated memory resources, such as many FPGAs, disabling the 16 upper registers may not further reduce the core size.
The core exists in two variations: picorv32
and picorv32_axi
. The former
provides a simple native memory interface, that is easy to use in simple
environments, and the latter provides an AXI-4 Lite Master interface that can
easily be integrated with existing systems that are already using the AXI
standard.
A separate core picorv32_axi_adapter
is provided to bridge between the native
memory interface and AXI4. This core can be used to create custom cores that
include one or more PicoRV32 cores together with local RAM, ROM, and
memory-mapped peripherals, communicating with each other using the native
interface, and communicating with the outside world via AXI4.
Performance:
The average Cycles per Instruction (CPI) is 5 to 7, depending on the mix of instructions in the code. The CPI for the individual instructions is:
Instruction | CPI |
---|---|
ALU reg + immediate | 4 |
ALU reg + reg | 5 |
memory load | 7 |
memory store | 8 |
branch, taken | 8 |
branch, not taken | 5 |
shift operations | 5+ |
Dhrystone benchmark results: 0.146 DMIPS/MHz (258 Dhrystones/Second/MHz)
For the Dryhstone benchmark the average CPI is 6.181.
This numbers apply for setups with memory that can accomodate requests within one clock cycle. Slower memory will degrade the performance of the processor.
Todos:
- Optional IRQ support
- Optional write-through cache
- Optional support for compressed ISA