The Economics of Chiplets
By Kari-No-Sugata, mooreslawisdead.com
Introduction
In the past, it was common for PCs to have a separate chip called a northbridge on the motherboard. The northbridge had a direct connection to the processor and handled the main memory controller and primary I/O functions. To help improve performance, processor designers integrated the main memory controller and the primary I/O controller onto the processor and the northbridge disappeared from the motherboard. Like how the x87 floating-point coprocessor was eventually integrated in the processor, this is part of a long running trend to integrate more and more onto the main processor.
The I/O chiplet on current Zen processors is effectively a northbridge, except that it is integrated into the processor package rather than the motherboard. So why did AMD seemingly go backwards?
To read the full article, click here
Related Chiplet
- 12nm EURYTION RFK1 - UCIe SP based Ka-Ku Band Chiplet Transceiver
- Interconnect Chiplet
- Bridglets
- Automotive AI Accelerator
- Direct Chiplet Interface
Related Technical Papers
- The Next Frontier in Semiconductor Innovation: Chiplets and the Rise of 3D-ICs
- Codesign of quantum error-correcting codes and modular chiplets in the presence of defects
- Stop-For-Top IP model to replace One-Stop-Shop by 2025... and support the creation of successful Chiplet business
- A cost analysis of the chiplet as a SoC solution
Latest Technical Papers
- Enhancing Test Efficiency through Automated ATPG-Aware Lightweight Scan Instrumentation
- Modeling Chiplet-to-Chiplet (C2C) Communication for Chiplet-based Co-Design
- Die-Level Transformation of 2D Shuttle Chips into 3D-IC for Advanced Rapid Prototyping using Meta Bonding
- STAMP-2.5D: Structural and Thermal Aware Methodology for Placement in 2.5D Integration
- MCMComm: Hardware-Software Co-Optimization for End-to-End Communication in Multi-Chip-Modules