AM⁴: MRAM Crossbar Based CAM/TCAM/ACAM/AP for In-Memory Computing

Abstract:

In-memory computing seeks to minimize data movement and alleviate the memory wall by computing in-situ, in the same place that the data is located. One of the key emerging technologies that promises to enable such computing-in-memory is spin-transfer torque magnetic tunnel junction (STT-MTJ). This paper proposes AM4, a combined STT-MTJ-based Content Addressable Memory (CAM), Ternary CAM (TCAM), approximate matching (similarity search) CAM (ACAM), and in-memory Associative Processor (AP) design, inspired by the recently announced Samsung MRAM crossbar. We demonstrate and evaluate the performance and energy-efficiency of the AM4-based AP using a variety of data intensive workloads. We show that an AM4-based AP outperforms state-of-the-art solutions both in performance (with the average speedup of about 10 ×) and energy-efficiency (by about 60 × on average).

Año de publicación:

2023

Keywords:

• CAM
• MRAM
• Non-von Neumann computer architecture
• associative processor
• associative memories
• emerging memories
• MTJ
• Double-barrier MTJ
• TCAM

Fuente:

scopus