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Gigabit Ethernet MAC (GMAC)

Full IEEE 802.3 framing: 7-byte preamble + SFD generation,

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ASIL-B
target
93.05%
SPFM
90.00%
LFM
PASS
FMEDA
3.5K
gates
11.0.0
version
The deliverable

What you’re licensing

Full IEEE 802.3 framing: 7-byte preamble + SFD generation, 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:

Synthesizable RTL
Portable, vendor-neutral SystemVerilog that drops onto your existing SoC fabric — no foundry or EDA-tool lock-in.
Per-IP FMEDA report
SPFM / LFM / PMHF computed against the ASIL target per ISO 26262-5 — the quantitative analysis your assessor asks for.
Safety manual
Assumptions of use, the safety mechanisms and their diagnostic coverage — written to drop straight into your safety case.
IP-XACT + integration docs
A machine-readable descriptor plus register and integration documentation for fast, low-risk bring-up.
Self-checking testbench
A self-checking (crypto: bit-exact) testbench and a one-command build, so you can reproduce every claim on day one.

1. Overview

10/100/1000 Mbps Ethernet MAC with Clause-22/45 MDIO management, IEEE 802.3 framing, 802.1Q/802.1ad VLAN, 802.3x PAUSE, IEEE 1588 PTP timestamping, and an optional AXI4-Lite descriptor-DMA TX path.

Key Features

Standards & Compliance

IEEE 802.3 (Ethernet MAC framing, CRC-32 FCS, Clause 22/45 MDIO); IEEE 802.1Q / 802.1ad (VLAN / Q-in-Q); IEEE 802.3x (PAUSE flow control); IEEE 1588 (PTP timestamping); ISO 26262 ASIL-B SEooC (SPFM 93.05%, LFM 90.00%, PMHF 4.64×10⁻⁹/h)

Functional Safety

ASIL-B (SEooC) · SPFM 93.05% · LFM 90.00% · PASS

ISO 26262:2018 · FMEDA available · Safety Manual included

Register Map

OffsetRegisterDescription
0x00MAC_CTRL[0]=TX_EN [1]=RX_EN
0x04MAC_STATRO [0]=TX_BUSY [1]=RX_FIFO_NE [2]=RX_ERR [3]=RX_FIFO_FULL
0x08TX_DATAW byte-push into TX FIFO
0x0CTX_GOW: write the length and start TX (preamble+SFD+payload+CRC)
0x10RX_DATAR byte-pop from RX FIFO

…23 more registers — see datasheet for the full table.

Getting Started

// Minimal instantiation
gmac #(
  .ADDR_W(6)
) u_gmac (
  .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.

Applications

Where it fits

Typically deployed in in-vehicle networks, industrial gateways, and sensor/actuator links where a bus controller has to carry its own safety argument.

The case

Why license it, not build it

Skip 12–18 months
The FMEDA and the safety case are already generated. You integrate a finished safety element — you don’t stand up a safety-IP program to originate one.
One vendor, one safety story
Every block in the catalog shares the same safety architecture, fault-reaction model, and FMEDA methodology — so subsystems roll up cleanly.
Verified, not vapor
The RTL builds and passes today; the safety metrics come from analysis and fault injection against real RTL, not a datasheet promise.

Interested in Gigabit Ethernet MAC (GMAC)?

Pricing, the per-IP FMEDA, safety manual, and RTL data room are shared under a mutual NDA.

Talk to us →See related IP

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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