Unlike fixed unidirectional die-to-die solutions, NuLink technology is able to deliver low-power and high-performance D2M solutions.
Die-to-Memory (D2M) PHY
Overview
Block Diagram
Applications
- Chiplets connected on standard organic packages without large silicon interposers or silicon bridges but with interposer-like bandwidth/power/latency.
- SiP applications that benefit from up to at least four times the substrate area compared to the largest silicon interposer and thus a far higher number of chiplets in the package, resulting in major performance and power advantages.
- ASIC designs where a Network on Chip is split across two or more chiplets.
- Applications that benefit from placement flexibility to mix and match chiplets of different dimensions.
- Chiplet applications–such as HBM—where there must be physical separation between a hot ASIC and heat-sensitive dies.
Technical Specifications
Related IPs
- UCIe-S PHY for Standard Package (x16) in TSMC N3E, North/South Orientation
- LPDDR5X/5/4X PHY - TSMC N5A for Automotive, ASIL B Random, AEC-Q100 Grade 2
- Die-to-Die, 112G Ultra-Extra Short Reach PHY Ported to TSMC N5 X8, North/South (vertical) poly orientation
- UCIe-S PHY for Standard Package (x16) in SS SF5A, North/South Orientation
- HBM3 PHY V2 - TSMC N5
- LPDDR5X/5/4X PHY - SS SF5A for Automotive, ASIL B Random, AEC-Q100 Grade 2