This paper briefly discusses a new architecture, Computation-In-Memory (CIM Architecture), which performs “processing-in-memory”. It is based on the integration of storage and computation in the same physical location (crossbar topology) and the use of non-volatile resistive-switching technology (memristive devices or memristors in short) instead of CMOS technology. The architecture has the potential of improving the energy-delay product, computing efficiency and performance area by at least two orders of magnitude
Memory accesses are the bottleneck of modern computer systems both in terms of performance and energ...
International audienceThe memristor is an emerging technology which is triggering intense interdisci...
One of the most critical challenges for today's and future data-intensive and big-data problems is d...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
In-memory computing is a promising computing paradigm due to its capability to alleviate the memory ...
Emerging computing applications (such as big-data and Internet-of-things) are extremely demanding in...
One of the most important constraints of today’s architectures for data-intensive applications is th...
Today's computing architectures and device technologies are unable to meet the increasingly stringen...
Computation-In-Memory (CIM) using memristor devices provides an energy-efficient hardware implementa...
CMOS technology and its sustainable scaling have been the enablers for the design and manufacturing ...
Today's computing architectures and device technologies are incapable of meeting the increasingly st...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
Memristive devices are promising candidates as a complement to CMOS devices. These devices come with...
In this chapter, we discuss the compute-in-memory memristive architectures and develop a 2M1M crossb...
Memory accesses are the bottleneck of modern computer systems both in terms of performance and energ...
International audienceThe memristor is an emerging technology which is triggering intense interdisci...
One of the most critical challenges for today's and future data-intensive and big-data problems is d...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
In-memory computing is a promising computing paradigm due to its capability to alleviate the memory ...
Emerging computing applications (such as big-data and Internet-of-things) are extremely demanding in...
One of the most important constraints of today’s architectures for data-intensive applications is th...
Today's computing architectures and device technologies are unable to meet the increasingly stringen...
Computation-In-Memory (CIM) using memristor devices provides an energy-efficient hardware implementa...
CMOS technology and its sustainable scaling have been the enablers for the design and manufacturing ...
Today's computing architectures and device technologies are incapable of meeting the increasingly st...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
Memristive devices are promising candidates as a complement to CMOS devices. These devices come with...
In this chapter, we discuss the compute-in-memory memristive architectures and develop a 2M1M crossb...
Memory accesses are the bottleneck of modern computer systems both in terms of performance and energ...
International audienceThe memristor is an emerging technology which is triggering intense interdisci...
One of the most critical challenges for today's and future data-intensive and big-data problems is d...