Popular belief holds that the cores on chip will grow at an exponential rate, following Moore’s Law, with a commensu-rate increase in performance. However, by exploring the design space of multicore chips across technologies under a large array of design parameters, we observe that physical constraints in power and off-chip bandwidth prohibit such performance increase. This leads us to conclude that server chips will not scale beyond a few tens of cores, potentially leaving the die real-estate underutilized in future technology generations. We observe that heterogeneous multicores can leverage the die area to overcome the initial power barrier, delivering significantly higher performance for the same off-chip bandwidth and power envelopes. ...
The memory hierarchy is predicted to consume up to 40% to 70% of total system power in future data c...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction o...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
......Although workloads with limited parallelism pose performance challenges with chip multiprocess...
The performance of supercomputers is not growing anymore at the rate it once used to. Several years ...
to our family to Jasmine to Kivanc where you are, is paradiseiii iv We stand on the cusp of the giga...
Computer architecture design is in a new era where performance is increased by replicating processin...
Nowadays and future embedded and special purpose systems need a qualitative step forward in the rese...
A major appeal of cloud computing is that it ab-stracts hardware architecture from both end users an...
In this paper, we study the space of chip multiprocessor (CMP) organizations. We compare the area an...
CPU and GPU platforms may not be the best options for many emerging compute patterns, which led to a...
Moore’s law is dead. The physical and economic principles that enabled an exponential rise in transi...
......Modern embedded, server, graph-ics, and network processors already include tens to hundreds of...
The memory hierarchy is predicted to consume up to 40% to 70% of total system power in future data c...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction o...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
......Although workloads with limited parallelism pose performance challenges with chip multiprocess...
The performance of supercomputers is not growing anymore at the rate it once used to. Several years ...
to our family to Jasmine to Kivanc where you are, is paradiseiii iv We stand on the cusp of the giga...
Computer architecture design is in a new era where performance is increased by replicating processin...
Nowadays and future embedded and special purpose systems need a qualitative step forward in the rese...
A major appeal of cloud computing is that it ab-stracts hardware architecture from both end users an...
In this paper, we study the space of chip multiprocessor (CMP) organizations. We compare the area an...
CPU and GPU platforms may not be the best options for many emerging compute patterns, which led to a...
Moore’s law is dead. The physical and economic principles that enabled an exponential rise in transi...
......Modern embedded, server, graph-ics, and network processors already include tens to hundreds of...
The memory hierarchy is predicted to consume up to 40% to 70% of total system power in future data c...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...