More Moore landscape for system readiness-ITRS2. 0 requirements
2014 IEEE 32nd International Conference on Computer Design (ICCD), 2014•ieeexplore.ieee.org
CMOS scaling enabled simultaneous system throughput scaling by concurrent delay, power,
and area shrinks with thanks to Moore's law. System scaling is getting more difficult with the
limitations in interconnect and bandwidth per power as well as the difficulties and cost of
monolithic integration. This requires a holistic approach for an optimal balance of
performance and power under the limits of technology. This paper covers a portfolio of More
Moore technologies for power-aware device enabling value proposition for system scaling …
and area shrinks with thanks to Moore's law. System scaling is getting more difficult with the
limitations in interconnect and bandwidth per power as well as the difficulties and cost of
monolithic integration. This requires a holistic approach for an optimal balance of
performance and power under the limits of technology. This paper covers a portfolio of More
Moore technologies for power-aware device enabling value proposition for system scaling …
CMOS scaling enabled simultaneous system throughput scaling by concurrent delay, power, and area shrinks with thanks to Moore's law. System scaling is getting more difficult with the limitations in interconnect and bandwidth per power as well as the difficulties and cost of monolithic integration. This requires a holistic approach for an optimal balance of performance and power under the limits of technology. This paper covers a portfolio of More Moore technologies for power-aware device enabling value proposition for system scaling - where requirements and gaps will be addressed in the ITRS2.0 roadmap.
ieeexplore.ieee.org