AutoPhi V18-Achievement -- Peak Series #587
12b11839414fa9fc0d92ee45cd5b703494b98caaa201eefb18826551a2e12d97
Publicly online since 2010 · U.S. patent applications since 2012 · inventions offered since 2014. The work of Christopher Gabriel Brown, independently documented.
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AutoPhi V18-Seed Voxel Processor -- Peak Series #777777
AutoPhi V18 Peak 587: 931.99 TFLOPS Tera-class | 7nm | 37017 Qubits | Maximum single-die performance
Overview
The AutoPhi V18 Peak 587 is a tera-class quantum-classical hybrid processor built on the 18-seed voxel DNA architecture at 7nm process technology. It delivers 931.99 TFLOPS peak performance with 26.623 TOPS AI acceleration across a 494x494 voxel grid (244,036 total voxels) stacked 72 layers deep (4 stack units of 18). Quantum subsystem: 37,017 qubits at 98.059% fidelity (error rate <1.941%) with 8,364 QEC-protected logical qubits. Clocked at 4.156 GHz with 40.33 TB/s memory bandwidth over 76 nanophotonic channels. Neuromorphic engine: 118.2K spiking neurons for event-driven AI processing. Power envelope: 389.4 W with 78% reduction vs 130nm baseline. Integrates 7/9 AutoPhi core technologies. Three-chromosome DNA encoding: 92-bit electron strand, 11 quantum instructions (atomic strand), 11 photon opcodes (light strand). Light-trigger initiated.
Key Specifications
| Performance | 931.99 TFLOPS (Tera-class) |
| Process Node | 7nm |
| Clock Speed | 4.156 GHz |
| AI Acceleration | 26.623 TOPS |
| Quantum Subsystem | 37,017 qubits at 98.059% fidelity (error rate <1.941%) |
| QEC Logical Qubits | 8,364 |
| Memory Bandwidth | 40.33 TB/s |
| Nanophotonic Channels | 76 |
| Neuromorphic Engine | 118.2K spiking neurons |
| Power Envelope | 389.4 W |
| Power Reduction vs 130nm | 78% |
| Voxel Grid | 494x494 (244036 voxels, 72 layers, 4 stack units of 18) |
| Compute Type | CPU + full-GPU + DPU |
| Form Factor | Server |
| LED Power Recycling | 87.8% |
| EM Cooling Efficiency | 83.1% (zero moving parts) |
| Quantum Battery Layers | 7 |
| DNA Encoding | 92-bit electron strand, 11 quantum instructions, 11 photon opcodes |
| Instruction Set | Red=ADD, Blue=SUB, Green=MUL, Yellow=DIV, Cyan=LOAD, Magenta=STORE, White=BRANCH, UV=QGATE, IR=SYNC, Orange=MEASURE, Violet=ENTANGLE |
Target Markets
- High-performance computing nodes
- large-scale AI inference
- climate modeling
Applications
- Full AI model training
- protein folding
- nuclear simulation
- real-time fraud detection at scale
Manufacturing & Fabrication
| Foundry | TSMC N7 / Samsung 7LPP |
| PDK | 7nm PDK (NDA) |
| EDA Flow | Commercial (Synopsys/Cadence) |
| Readiness | Architecture Ready -- Awaiting 7nm NDA/PDK |
Manufacturing Steps
- Obtain TSMC N7 or Samsung 7LPP PDK under NDA
- Run synthesis with 7nm stdcells
- P&R -> TSMC/Samsung DRC/LVS decks
- Package GDSII, LEF, DEF, netlist per FOUNDRY_STANDARDS.md
- Submit via TSMC design portal or Samsung foundry portal
Deliverables
- GDSII (mask layout)
- LEF (library exchange)
- DEF (design exchange)
- Gate-level netlist (Verilog)
- DRC report
- LVS report
- FOUNDRY_HANDOFF_SIMPLE.txt
- RTL (autophi_light_cpu_core.v + autophi_quantum_cpu_core.v + autophi_hybrid_cpu_top.v)
- Synthesis scripts
- P&R configurations
- Manufacturing documentation
- Performance projections
RTL Design Files
autophi_light_cpu_core.vautophi_quantum_cpu_core.vautophi_hybrid_cpu_top.v
Acquisition Path
This product is available through CGB's 4-step acquisition path. The current price is shown in your cart and on the live storefront page.
- Step 1 — Proof of Function: public, $1.69 each.
- Step 2 — Mathematical Deposition: reading material under mutual NDA.
- Step 3 — Evaluation License: hands-on evaluation under NDA; fee credits toward Step 4.
- Step 4 — Full Acquisition:







