The increasing demand for extracting value out of ever-growing data poses an ongoing challenge to system designers, a task only made trickier by the end of Dennard scaling. As the performance density of traditional CPU-centric architectures stagnates, advancing compute capabilities necessitates novel architectural approaches. Near-memory processing (NMP) architectures are reemerging as promising candidates to improve computing efficiency through tight coupling of logic and memory. NMP architectures are especially fitting for data analytics, as they provide immense bandwidth to memory-resident data and dramatically reduce data movement, the main source of energy consumption. Modern data analytics operators are optimized for CPU execution and...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
We are in the computing era of super-zetta data bytes (a.k.a. Big Data). Big Data is critical to dev...
\u3cp\u3eEmerging computing architectures such as near-memory computing (NMC) promise improved perfo...
Data-intensive workloads and applications, such as machine learning (ML), are fundamentally limited ...
Due to the end of Moore's Law and Dennard Scaling, performance gains in general-purpose architecture...
Abstract—The end of Dennard scaling has made all sys-tems energy-constrained. For data-intensive app...
Real-world applications are now processing big-data sets, often bottlenecked by the data movement be...
Near-memory Computing (NMC) promises improved performance for the applications that can exploit the ...
Data movement between memory and CPU is a well-known energy bottleneck for analytics. Near-Memory Pr...
Many important scientific and engineering applications execute sub-optimally on current commodity pr...
Many data-intensive applications exhibit poor temporal and spatial locality and perform poorly on co...
Real-world applications are now processing big-data sets, often bottlenecked by the data movement be...
\u3cp\u3eThe cost of moving data between the memory/storage units and the compute units is a major c...
The exponential growth of the dataset size demanded by modern big data applications requires innovat...
In the era of "big" data, data analysis algorithms need to be efficient. Traditionally ...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
We are in the computing era of super-zetta data bytes (a.k.a. Big Data). Big Data is critical to dev...
\u3cp\u3eEmerging computing architectures such as near-memory computing (NMC) promise improved perfo...
Data-intensive workloads and applications, such as machine learning (ML), are fundamentally limited ...
Due to the end of Moore's Law and Dennard Scaling, performance gains in general-purpose architecture...
Abstract—The end of Dennard scaling has made all sys-tems energy-constrained. For data-intensive app...
Real-world applications are now processing big-data sets, often bottlenecked by the data movement be...
Near-memory Computing (NMC) promises improved performance for the applications that can exploit the ...
Data movement between memory and CPU is a well-known energy bottleneck for analytics. Near-Memory Pr...
Many important scientific and engineering applications execute sub-optimally on current commodity pr...
Many data-intensive applications exhibit poor temporal and spatial locality and perform poorly on co...
Real-world applications are now processing big-data sets, often bottlenecked by the data movement be...
\u3cp\u3eThe cost of moving data between the memory/storage units and the compute units is a major c...
The exponential growth of the dataset size demanded by modern big data applications requires innovat...
In the era of "big" data, data analysis algorithms need to be efficient. Traditionally ...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
We are in the computing era of super-zetta data bytes (a.k.a. Big Data). Big Data is critical to dev...
\u3cp\u3eEmerging computing architectures such as near-memory computing (NMC) promise improved perfo...