Defensive Technical Disclosure for Prior Art Establishment (CC0 1. 0 Public Domain Dedication) This document establishes immutable, date-stamped prior art under 35 U. S. C. § 102 and 35 U. S. C. § 103 to prevent third-party patenting of user-installable, post-manufacture, field-upgradeable central processing unit (CPU) memory and cache expansion modules. Core Keywords and Technical Interconnect Classification: Sub-millimeter interface, micrometer-scale array, 300-500 μm pitch, convex protrusion array, concave groove array, tapered alignment V-groove, mechanical self-aligning press-fit engagement, near-field electromagnetic coupling, non-contact wireless signal bridging, capacitive coupling, inductive coupling, Metal-Insulator-Metal (MIM) topology, dielectric passivation boundary, silicon nitride (Si3N4) thin film, aluminum oxide (Al2O3) passivation, on-chip ESD clamp diodes, transient voltage suppression, asymmetric orientation keying feature, physical error prevention, functional array partitioning, bare-metal galvanic corner pins, DC power delivery, ground reference (GND), system management bus (SMBus/I2C), daisy-chain level identification (LayerID), automated hardware cascading node address allocation, motherboard BIOS/UEFI firmware enumeration, dynamic multi-level cache hierarchy scaling, L4 cache layer assignment, L5 cache layer assignment, L6 cache layer assignment, L (3+N) scalable caching topology, cache coherency directory protocol management, module side thermal contact planes, horizontal copper wings, heatsink side-clamping thermal arms, ecosystem-bridged cooling, silicone cleaning compound slime compatibility, fault-tolerant layered independent isolation, graceful system degradation. Cross-Platform Microarchitectural Applicability: x86 microprocessors (Intel, AMD 3D V-Cache, Nova Lake bLLC), ARM architectures (Apple Silicon M-series, Qualcomm Snapdragon, Ampere Altra enterprise processors), open-source RISC-V compute engines, high-throughput Graphics Processing Units (GPUs) Last Level Cache (LLC) L2/L3 expansions, Field-Programmable Gate Arrays (FPGAs) scratchpad extensions, High-Bandwidth Memory (HBM) and dynamic random-access memory (DRAM) modular physical layer stacking. Comparative Patent Prior Art Impact: This disclosure explicitly dismantles the novelty and non-obviousness criteria for subsequent filings by presenting a consumer-operable, room-temperature alternative to foundry-locked advanced semiconductor multi-die packaging techniques (TSMC SoIC, Intel Foveros Direct, Samsung X-Cube) and CXL (Compute Express Link) bus-attached high-latency expansions. Full structural text, manufacturing tolerance specifications, and accompanying schematic logic drawings (Figures 1, 2, and 3) are dedicated completely to the public domain.
Han Bo-Jun (Sun,) studied this question.