HPCA 2023
Date: Feb 27, 2023 6:00 am – Mar 01, 2023 6:00 pm
Location: Montreal, QC, Canada
29th IEEE International Symposium on High-Performance Computer Architecture (HPCA-29)
The 29th IEEE International Symposium on High-Performance Computer Architecture (HPCA) will be held in Montreal, Canada in 2023. HPCA is a high-impact venue for presenting research results on a wide range of computer architecture topics. Some computer architecture topics of interest are listed below, but we encourage authors to contact the PC chair if they have a question regarding if a topic not listed fits:
- Accelerators
- Approximate Computing
- Compilers/PL for novel architectures
- CPU/Microarchitecture
- Domain-Specific Processing
- Embedded/IoT/Edge
- FPGA, CGRA, Reconfigurable Systems
- GPGPU/GPU Computing
- Integration (3D/chiplets/interposer/wafer-scale)
- Memory/Storage
- Measurement, Modeling, Simulation
- Near/In-Memory Computing
- Networks and Interconnects
- Neuromorphic Computing
- Quantum/ Superconducting Computing
- Reliability/Fault Tolerance
- Security/Privacy
Submitted by Anonymous
on
Date: Feb 27, 2023 6:00 am – Mar 01, 2023 6:00 pm
Location: Montreal, QC, Canada
29th IEEE International Symposium on High-Performance Computer Architecture (HPCA-29)
The 29th IEEE International Symposium on High-Performance Computer Architecture (HPCA) will be held in Montreal, Canada in 2023. HPCA is a high-impact venue for presenting research results on a wide range of computer architecture topics. Some computer architecture topics of interest are listed below, but we encourage authors to contact the PC chair if they have a question regarding if a topic not listed fits:
- Accelerators
- Approximate Computing
- Compilers/PL for novel architectures
- CPU/Microarchitecture
- Domain-Specific Processing
- Embedded/IoT/Edge
- FPGA, CGRA, Reconfigurable Systems
- GPGPU/GPU Computing
- Integration (3D/chiplets/interposer/wafer-scale)
- Memory/Storage
- Measurement, Modeling, Simulation
- Near/In-Memory Computing
- Networks and Interconnects
- Neuromorphic Computing
- Quantum/ Superconducting Computing
- Reliability/Fault Tolerance
- Security/Privacy
Submitted by Anonymous
on