Qualcomm High Bandwidth Compute aims to compete with high-bandwidth memory and flash by stacking LPDDR right on top of the CPU to “eliminate the HBM tax”



  • Qualcomm introduces High Bandwidth Compute (HBC) memory architecture
  • It leverages a hybrid design that stacks LPDDR memory in a 3D space, leveraging multiple layers to essentially replace what the current generation of high-bandwidth memory (HBM4) does.
  • The move, which makes use of Qualcomm’s extensive experience with LPDDR, is not only energy efficient but also offers massive amounts of bandwidth and up to 768GB of stacked memory for AI workloads.

Qualcomm is reviving its data center ambitions, leveraging its experience as a chip designer that excels in the low-power computing segment by focusing on an entirely new architecture: High Bandwidth Compute (HPC).

The solution is a hybrid version of existing LPDDR memory that Qualcomm has successfully stacked in 3D vertical space, not unlike the industry-standard high-bandwidth memory (HBM) and its latest version, HBM4, while offering significant power savings along the way.

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