Today's computing architectures and device technologies are unable to meet the increasingly stringent demands on energy and performance posed by emerging applications. Therefore, alternative computing architectures are being explored that leverage novel post-CMOS device technologies. One of these is a Computation-in-Memory architecture based on memristive devices. This paper describes the concept of such an architecture and shows different applications that could significantly benefit from it. For each application, the algorithm, the architecture, the primitive operations, and the potential benefits are presented. The applications cover the domains of data analytics, signal processing, and machine learning
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
Today's computing architectures and device technologies are incapable of meeting the increasingly st...
One of the most critical challenges for today's and future data-intensive and big-data problems is d...
Today's computing architectures and device technologies are unable to meet the increasingly stringen...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
Emerging computing applications (such as big-data and Internet-of-things) are extremely demanding in...
In-memory computing is a promising computing paradigm due to its capability to alleviate the memory ...
Memristive devices are promising candidates as a complement to CMOS devices. These devices come with...
CMOS technology and its sustainable scaling have been the enablers for the design and manufacturing ...
By reaching to the CMOS scaling limitation based on the Moore’s law and due to the increasing dispar...
This paper briefly discusses a new architecture, Computation-In-Memory (CIM Architecture), which per...
With the rise in artificial intelligence (AI), computing systems are facing new challenges related t...
Memristive computing refers to the utilization of the memristor, the fourth fundamental passive cir...
In the past decades, the computing capability has shown an exponential growth trend, which is observ...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
Today's computing architectures and device technologies are incapable of meeting the increasingly st...
One of the most critical challenges for today's and future data-intensive and big-data problems is d...
Today's computing architectures and device technologies are unable to meet the increasingly stringen...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
Emerging computing applications (such as big-data and Internet-of-things) are extremely demanding in...
In-memory computing is a promising computing paradigm due to its capability to alleviate the memory ...
Memristive devices are promising candidates as a complement to CMOS devices. These devices come with...
CMOS technology and its sustainable scaling have been the enablers for the design and manufacturing ...
By reaching to the CMOS scaling limitation based on the Moore’s law and due to the increasing dispar...
This paper briefly discusses a new architecture, Computation-In-Memory (CIM Architecture), which per...
With the rise in artificial intelligence (AI), computing systems are facing new challenges related t...
Memristive computing refers to the utilization of the memristor, the fourth fundamental passive cir...
In the past decades, the computing capability has shown an exponential growth trend, which is observ...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
Today's computing architectures and device technologies are incapable of meeting the increasingly st...
One of the most critical challenges for today's and future data-intensive and big-data problems is d...