Computation-in-Memory (CIM) is an emerging computing paradigm to address memory bottleneck challenges in computer architecture. A CIM unit cannot fully replace a general-purpose processor. Still, it significantly reduces the amount of data transfer between a traditional memory unit and the processor by enriching the transferred information. Data transactions between processor and memory consist of memory access addresses and values. While the main focus in the field of in-memory computing is to apply computations on the content of the memory (values), the importance of CPU-CIM address transactions and calculations for generating the sequence of access addresses for data-dominated applications is generally overlooked. However, the amount of ...
Workloads involving higher computational operations require impressive computational units. Computat...
The memory-wall problem is a big challenge that classical Von Neumann-based computer systems face. T...
This paper briefly discusses a new architecture, Computation-In-Memory (CIM Architecture), which per...
One of the most important constraints of today’s architectures for data-intensive applications is th...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
Processor performance is directly impacted by the latency of the memory system. As processor core cy...
The energy consumption at the I/O pins is a significant part of the overall chip consumption. This p...
International audienceCompute in-memory (CIM) is a promising technique that minimizes data transport...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
The complexity of the computational problems is rising faster than the computational platforms' capa...
With the increase in computational parallelism and low-power Integrated Circuits (ICs) design, neuro...
Conventional Von Neumann machines inherently separate the processing units from the memory units. Th...
General purpose processors and accelerators including system-on-a-chip and graphics processing units...
As CPU data requests to the level-one (L1) data cache (DC) can represent as much as 25 % of an embed...
International audience—This paper presents the computing model for In-Memory Computing architecture ...
Workloads involving higher computational operations require impressive computational units. Computat...
The memory-wall problem is a big challenge that classical Von Neumann-based computer systems face. T...
This paper briefly discusses a new architecture, Computation-In-Memory (CIM Architecture), which per...
One of the most important constraints of today’s architectures for data-intensive applications is th...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
Processor performance is directly impacted by the latency of the memory system. As processor core cy...
The energy consumption at the I/O pins is a significant part of the overall chip consumption. This p...
International audienceCompute in-memory (CIM) is a promising technique that minimizes data transport...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
The complexity of the computational problems is rising faster than the computational platforms' capa...
With the increase in computational parallelism and low-power Integrated Circuits (ICs) design, neuro...
Conventional Von Neumann machines inherently separate the processing units from the memory units. Th...
General purpose processors and accelerators including system-on-a-chip and graphics processing units...
As CPU data requests to the level-one (L1) data cache (DC) can represent as much as 25 % of an embed...
International audience—This paper presents the computing model for In-Memory Computing architecture ...
Workloads involving higher computational operations require impressive computational units. Computat...
The memory-wall problem is a big challenge that classical Von Neumann-based computer systems face. T...
This paper briefly discusses a new architecture, Computation-In-Memory (CIM Architecture), which per...