rv64rfecc is a full-width 64-bit SECDED (Hamming + overall parity) shadow-ECC wrapper that non-invasively hardens the architectural integer register… It is delivered as a licensable soft-IP block engineered as an ASIL-B Safety Element out of Context — not just RTL, but the complete functional-safety work package needed to carry it into an ISO 26262 program:
rv64_rf_ecc is a full-width 64-bit SECDED (Hamming + overall parity) shadow-ECC wrapper that non-invasively hardens the architectural integer register file of the vendored CVA6 (OpenHW CV64A6, RV64GC) core: single-bit upsets are corrected transparently on read, and uncorrectable double-bit upsets are flagged to the catalog safety_monitor as a register-file parity fault.
RV64GC (CVA6/OpenHW CV64A6 core, unmodified vendored RTL); ISO 26262 ASIL-B SEooC (informational, pre-sign-off) — SPFM 92.10%, LFM 97.05%, PMHF 1.46×10⁻⁸/h
ASIL-B (SEooC) · SPFM 92.10% · LFM 97.05% · PASS
ISO 26262:2018 · FMEDA available · Safety Manual included
See datasheet for full register reference.
// Minimal instantiation
rv64_rf_ecc #(
.ADDR_W(6)
) u_rv64_rf_ecc (
.clk (clk),
.rst_n (rst_n),
// APB4
.p_paddr (paddr),
.p_psel (psel),
.p_penable (penable),
.p_pwrite (pwrite),
.p_pwdata (pwdata),
.p_prdata (prdata),
.p_pready (pready),
// Safety
.err_clear (1'b0),
.err_valid (err_valid),
.err_code (err_code)
);Configure via the CTRL register after reset to enable the IP and set operating parameters. Monitor err_valid / err_code for any safety faults reported by the built-in safety monitor.
Typically deployed in RISC-V SoCs that need a safety-grade core, boot, memory, debug, and interrupt platform.
Pricing, the per-IP FMEDA, safety manual, and RTL data room are shared under a mutual NDA.
Figures are pre-silicon engineering-grade estimates for a Safety Element out of Context (SEooC); final ASIL sign-off is the integrator’s, supported under NDA. FMEDA and Safety Manual available under NDA.
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