| name | analog-integrate |
| description | Architect Phase 3: replace behavioral models with verified transistor netlists and run top-level integration verification. Use after all sub-blocks pass L2.
|
analog-integrate
Architect Phase 3 -- integration verification. After all sub-blocks pass L2
transistor-level verification, this skill replaces behavioral models with verified
netlists one by one, runs top-level integration checks at each step, and produces
the final integration verifier-report.
Effort Gating
Corner matrix follows the same table as /analog-verify
(see shared-references/effort-contract.md):
| Effort | Corner matrix |
|---|
| lite | TT 27C only |
| standard | TT + SS/125C + FF/-40C |
| intensive | 5 corners (TT/SS/FF/SF/FS) |
| exhaustive | Full PVT + MC (if mismatch models available, else full PVT) |
Print at startup:
[effort: <level>] corners=<N>
Inputs
| Artifact | Source |
|---|
All verified sub-block .scs netlists (L2 pass) | Designer/verifier loop output |
All sub-block verifier-report.md | Verifier output |
architecture.md | /analog-decompose output |
Top-level spec.yml | Project root |
blocks/*/behavioral.va | /analog-behavioral output (used as replacement baseline) |
See shared-references/handoff-contracts.md section "Verified sub-blocks -> Architect
(analog-integrate)" for the full handoff payload:
| Field | Required |
|---|
All sub-block .scs netlists (L2 pass) | yes |
All sub-block verifier-report.md | yes |
Server name from servers.yml | yes |
Outputs
| Artifact | Location |
|---|
Integration verifier-report.md | verifier-reports/integration/verifier-report.md |
The report includes per-spec results (measured / target / margin) for every top-level
spec across all corners at the current effort level.
Integration Procedure
1. Replace Behavioral Models One by One
For each sub-block, in dependency order (inputs before outputs):
- Replace
blocks/<name>/behavioral.va with the verified blocks/<name>/circuit/<block>.scs
in the system-level testbench.
- Keep all other sub-blocks as behavioral models during this step.
- Run top-level specs and verify no regression.
- If a regression appears, the responsible sub-block is the one just replaced --
flag it immediately before proceeding.
This incremental approach isolates integration failures to specific sub-blocks.
2. Run Top-Level Specs at Each Replacement Step
At each step, simulate the top-level specs from spec.yml:
- Compare against targets with measured / target / margin reporting.
- Any FAIL at this stage means the replaced sub-block's transistor implementation
does not match its behavioral contract -- investigate the interface.
3. Final All-Transistor Verification
After all behavioral models are replaced:
- Run the complete top-level spec suite with all transistor-level netlists.
- Run across the corner matrix determined by the current effort level.
- Document all results in the integration
verifier-report.md.
Failure Routing
When integration verification fails:
-
Identify the responsible sub-block or interface:
- If failure appeared at a specific replacement step, that sub-block is suspect.
- If failure appears only in the all-transistor run, it is likely an interface
mismatch between adjacent blocks.
-
Send back to design loop:
- Revise the interface constraints or sub-block spec as needed.
- Dispatch the affected sub-block's designer with updated constraints.
- The designer/verifier loop re-runs for that sub-block only.
-
Architectural failure: if multiple sub-blocks fail or the failure is systemic
(e.g., power budget blown), escalate to /analog-decompose for architecture revision.
Sign-Off Gate
L3 PVT verification is required before delivery.
Before the design can be delivered or migrated to Virtuoso:
- Dispatch verifier with
level: L3 on the fully integrated design.
- All top-level specs must pass across all corners defined in
spec.yml.
- If any corner fails:
- Performance issue: return to designer for the affected sub-block.
- Architectural issue: return to
/analog-decompose.
Do not proceed to Virtuoso migration until L3 passes.
Virtuoso Migration
After L3 sign-off, dispatch the designer agent with a Virtuoso migration task:
- Input: path to the verified integrated netlist.
- Action: designer migrates the netlist to a Virtuoso cellview and runs LVS.
- Server: use
role_mapping.designer from servers.yml (designer has Virtuoso
write access).
The designer uses the virtuoso skill for schematic entry and LVS verification.
Handoff Acceptance Criteria
Phase 3 is complete when (from prompts/architect-prompt.md):
Lessons Learned
At project completion (after the sign-off gate passes), the architect reviews
iteration-log.yml and writes the summary.lessons_learned section. This is a
first-class activity, not an afterthought. Focus on insights that would change
future designs:
- Specs where behavioral model prediction diverged significantly from transistor-level
- Budget allocations that were too tight or too generous
- Verification conditions that were repeatedly flagged as incorrect
- Corner-specific surprises (e.g., "SS corner offset 3x worse than TT prediction")
- Optimizer usage patterns (which blocks needed it, which didn't)
At exhaustive effort, the architect also writes a retrospective narrative:
"What emerged that could not have been predicted?" This reflection captures tacit
knowledge that structured logs cannot.
These lessons are the most valuable output of the entire flow -- they make the next
project's architect smarter. At effort >= standard, consider pushing lessons to
/analog-wiki via archive-project.
References
prompts/architect-prompt.md -- Phase 3 section and Lessons Learned section
shared-references/handoff-contracts.md -- handoff payload requirements
shared-references/effort-contract.md -- corner matrix and effort dimensions