Replaces global round-robin with deterministic address-derived PC
striping:
pc_shift = log2(burst_bytes)
pc_mask = num_pcs - 1
pc = (flit.address >> pc_shift) & pc_mask
Each Transaction carries base_address (HBM byte offset of the first
chunk); each Flit derives its own address as base + i*flit_bytes.
HBM CTRL routes flits to PCs via this formula, replacing the
arrival-order RR pointer. Also splits the is_last wait into an
asynchronous _finalize_txn process so the worker isn't blocked on
PC commit, exposing true PC parallelism for disjoint addresses.
phyaddr.py documents the canonical bit layout (bits [10:8] for the
default burst=256, num_pcs=8 case). ADR-0033 D6 records the
derivation and the workload scenarios where address-striping
matters (strided streams, offset-disjoint parallel transfers).
Adds tests/test_hbm_address_based_pc.py: canonical bit mapping,
strided 8-way load distribution, same-address PC-0 serialization,
PC-aligned 2KB pair collision, dynamic pc_shift from burst_bytes,
and power-of-2 attr validation. Integration tests inspect
_pc_avail ledger directly: at default config UCIe's 8 ns per-txn
overhead exactly matches chunk_time, masking PC contention at the
makespan level even though the ledger correctly distinguishes the
cases.
Full suite: 631 passed, 1 skipped.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Previous model double-counted slow-upstream paths (e.g., 64KB via UCIe
128 GB/s was ~2x pessimistic). HBM CTRL now distributes bursts across
8 pseudo-channels via global round-robin, with per-chunk commit timing
that pipelines correctly against the bottleneck link's data arrival.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
ywkang