RISC-V Vector Processor IP

Filter

Compare 30 IP from 10 vendors (1 - 10)

Highly efficient out-of-order RISC-V vector application processor series
- Full support for the RVA22 RISC-V profile specification
- Best-in-class RISC-V performance efficiency
High performance three-issue, out-of-order RISC-V vector application processor
- Breakthrough RISC-V performance
- Enabling next generation applications
Multi-core capable RISC-V processor with vector extensions and Intelligence Extensions
- SiFive Intelligence Extensions for ML workloads
- 512-bit vector register length:
- Built on silicon-proven U7 series core:
- High performance vector memory subsystem
64-bit RISC-V Multicore Processor with 1024-bit Vector Extension
- 64-bit in-order dual-issue 8-stage CPU core with up to 1024-bit Vector Processing Unit (VPU)
- Symmetric multiprocessing up to 8 cores
High-performance 64-bit RISC-V architecture multi-core processor with AI vector acceleration engine
- Instruction set: RISC-V RV64GC/RV 64GCV;
- Multi-core: Isomorphic multi-core with 1 to 4 optional clusters. Each cluster can have 1 to 4 optional cores;
Highest performance four-issue, out-of-order RISC-V vector application processors
- Breakthrough RISC-V performance
- Multi-core, multi-cluster processor configurations with up to 16 cores
RISC-V Vector Extension
ARC-V RHX-100 dual-issue, 32-bit single-core RISC-V processor for real-time applications
- High-speed, 32-bit, dual-issue, 10-stage pipeline
- Multicore support for up to 16 CPUs and up to 16 user hardware accelerators per processor cluster
ARC-V RMX-100 ultra-low power 32-bit RISC-V processor for embedded applications
- 32-bit RISC-V embedded CPU with balanced 3-stage pipeline
- DSP implementation to extend the RISC-V baseline (RMX-100D)
- 2 KB to 64 KB instruction L1 cache
- Up to 2MB instruction and data closely coupled memory (CCM)
ARC-V RHX-105 dual-issue, 32-bit RISC-V processor for real-time applications (multi-core)
- High-speed, 32-bit, dual-issue, 10-stage pipeline
- Multicore support for up to 16 CPUs and up to 16 user hardware accelerators per processor cluster