admin/ldpc_optical
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

feat: add threshold computation via binary search

Browse Source 
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
This commit is contained in:
cah
2026-02-24 05:27:33 -07:00
parent d0453e0583
commit f5b3e318c4
2 changed files with 158 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files

116
model/density_evolution.py
View File

@@ -253,6 +253,122 @@ def run_de(profile, lam_s, lam_b, z_pop=100000, max_iter=100):
return False, error_frac
# =============================================================================
# Threshold Computation via Binary Search
# =============================================================================
def build_de_profile(vn_degrees, m_base=7):
"""
Build a DE profile from a VN degree list.
Col 0 is always info (connects to all m_base rows).
Cols 1..n_base-1 are parity columns with staircase backbone
plus extra connections to reach target degrees.
Extra connections are placed below-diagonal to preserve
lower-triangular parity structure.
"""
n_base = len(vn_degrees)
assert n_base == m_base + 1, f"Expected {m_base+1} columns, got {n_base}"
assert vn_degrees[0] == m_base, f"Info column must have degree {m_base}"
# Start with staircase backbone connections
# connections[row] = set of connected columns
connections = [set() for _ in range(m_base)]
# Col 0 (info) connects to all rows
for r in range(m_base):
connections[r].add(0)
# Staircase backbone: row r connects to col r+1 (diagonal)
# row r>0 also connects to col r (sub-diagonal)
for r in range(m_base):
connections[r].add(r + 1) # diagonal
if r > 0:
connections[r].add(r) # sub-diagonal
# Check current degrees
current_degrees = [0] * n_base
for r in range(m_base):
for c in connections[r]:
current_degrees[c] += 1
# Add extra connections for parity columns that need higher degree
for c in range(1, n_base):
needed = vn_degrees[c] - current_degrees[c]
if needed <= 0:
continue
# Find rows we can add this column to (not already connected)
# Prefer below-diagonal rows to preserve lower-triangular structure
available_rows = []
for r in range(m_base):
if c not in connections[r]:
available_rows.append(r)
# Sort by distance below diagonal (prefer far below for structure)
# Diagonal for col c is row c-1
available_rows.sort(key=lambda r: -(r - (c - 1)) % m_base)
for r in available_rows[:needed]:
connections[r].add(c)
current_degrees[c] += 1
# Convert sets to sorted lists
connections_list = [sorted(conns) for conns in connections]
# Verify degrees
final_degrees = [0] * n_base
for r in range(m_base):
for c in connections_list[r]:
final_degrees[c] += 1
return {
'n_base': n_base,
'm_base': m_base,
'connections': connections_list,
'vn_degrees': final_degrees,
}
def compute_threshold(profile, lam_b=0.1, z_pop=50000, tol=0.1):
"""
Binary search for minimum lam_s where DE converges.
Returns threshold lam_s*.
"""
lo = 0.1
hi = 20.0
# Verify hi converges
converged, _ = run_de(profile, lam_s=hi, lam_b=lam_b, z_pop=z_pop, max_iter=100)
if not converged:
return hi # Doesn't converge even at hi
# Verify lo doesn't converge
converged, _ = run_de(profile, lam_s=lo, lam_b=lam_b, z_pop=z_pop, max_iter=100)
if converged:
return lo # Converges even at lo
while hi - lo > tol:
mid = (lo + hi) / 2
converged, _ = run_de(profile, lam_s=mid, lam_b=lam_b, z_pop=z_pop, max_iter=100)
if converged:
hi = mid
else:
lo = mid
return hi
def compute_threshold_for_profile(vn_degrees, m_base=7, lam_b=0.1, z_pop=50000, tol=0.1):
"""
Convenience wrapper: compute DE threshold from a VN degree list.
"""
profile = build_de_profile(vn_degrees, m_base=m_base)
return compute_threshold(profile, lam_b=lam_b, z_pop=z_pop, tol=tol)
# =============================================================================
# CLI placeholder (will be extended in later tasks)
# =============================================================================

42
model/test_density_evolution.py
View File

@@ -50,3 +50,45 @@ class TestDensityEvolution:
# Run one step
beliefs = density_evolution_step(beliefs, msg_memory, ORIGINAL_STAIRCASE_PROFILE, z_pop)
assert beliefs.shape == (n_base, z_pop), f"Shape changed after step: {beliefs.shape}"
class TestThresholdComputation:
"""Tests for threshold binary search."""
def test_threshold_original_staircase(self):
"""Threshold for original staircase [7,2,2,2,2,2,2,1] should be ~3-6 photons."""
from density_evolution import compute_threshold_for_profile
np.random.seed(42)
threshold = compute_threshold_for_profile(
[7, 2, 2, 2, 2, 2, 2, 1], m_base=7, lam_b=0.1,
z_pop=10000, tol=0.5
)
assert 2.0 < threshold < 8.0, f"Expected threshold ~3-6, got {threshold}"
def test_threshold_peg_ring(self):
"""PEG ring [7,3,3,3,2,2,2,2] should have lower or equal threshold than original."""
from density_evolution import compute_threshold_for_profile
np.random.seed(42)
thresh_orig = compute_threshold_for_profile(
[7, 2, 2, 2, 2, 2, 2, 1], m_base=7, lam_b=0.1,
z_pop=15000, tol=0.25
)
np.random.seed(123)
thresh_peg = compute_threshold_for_profile(
[7, 3, 3, 3, 2, 2, 2, 2], m_base=7, lam_b=0.1,
z_pop=15000, tol=0.25
)
assert thresh_peg <= thresh_orig, (
f"PEG threshold {thresh_peg} should be <= original {thresh_orig}"
)
def test_profile_to_hbase(self):
"""build_de_profile should produce valid profile with correct column degrees."""
from density_evolution import build_de_profile
profile = build_de_profile([7, 3, 2, 2, 2, 2, 2, 2], m_base=7)
assert profile['n_base'] == 8
assert profile['m_base'] == 7
assert profile['vn_degrees'] == [7, 3, 2, 2, 2, 2, 2, 2]
# Every row should have at least 2 connections
for r, conns in enumerate(profile['connections']):
assert len(conns) >= 2, f"Row {r} has only {len(conns)} connections"