From WikiChip
Difference between revisions of "intel/tick-tock"
Line 4: | Line 4: | ||
Under the Tick-Tock Model: | Under the Tick-Tock Model: | ||
− | * '''Tick''' - With each tick, Intel advances their manufacturing [[process technology]] in line with [[Moore's Law]]. Each new [[process technology|process]] introduces higher [[transistor density]] and a generally a plethora of other advantages such as higher performance and lower power consumption. During a tick, Intel retrofits {{intel|microarchitectures|their previous}} [[microarchitecture]] to the new process which inherently yielded better performance and energy saving. | + | * '''Tick''' - With each tick, Intel advances their manufacturing [[process technology]] in line with [[Moore's Law]]. Each new [[process technology|process]] introduces higher [[transistor density]] and a generally a plethora of other advantages such as higher performance and lower power consumption. During a tick, Intel retrofits {{intel|microarchitectures|their previous}} [[microarchitecture]] to the new process which inherently yielded better performance and energy saving. At this phase, only lightweight features and improvements are introduced. |
* '''Tock''' - With each tock, Intel uses the their latest [[manufacturing process technology]] from their "tick" to manufacture a newly designed [[microarchitecture]]. The new microarchitecture is designed with the new process in mind and typically introduces Intel's newest big features and functionalities. New [[instruction set|instructions]] are often added during this cycle stage. | * '''Tock''' - With each tock, Intel uses the their latest [[manufacturing process technology]] from their "tick" to manufacture a newly designed [[microarchitecture]]. The new microarchitecture is designed with the new process in mind and typically introduces Intel's newest big features and functionalities. New [[instruction set|instructions]] are often added during this cycle stage. |
Revision as of 16:35, 21 April 2017
Tick-Tock was an aggressive development model introduced by Intel for their mainstream microprocessors in 2005 and phased out in 2016 whereby microarchitecture changes were in-sync with their process shrink. Under the tick-tock scheme roughly every 12-18 months the Intel alternated between "Tick" and "Tock". Intel no longer uses this model, instead they use the Process-Architecture-Optimization (PAO).
Under the Tick-Tock Model:
- Tick - With each tick, Intel advances their manufacturing process technology in line with Moore's Law. Each new process introduces higher transistor density and a generally a plethora of other advantages such as higher performance and lower power consumption. During a tick, Intel retrofits their previous microarchitecture to the new process which inherently yielded better performance and energy saving. At this phase, only lightweight features and improvements are introduced.
- Tock - With each tock, Intel uses the their latest manufacturing process technology from their "tick" to manufacture a newly designed microarchitecture. The new microarchitecture is designed with the new process in mind and typically introduces Intel's newest big features and functionalities. New instructions are often added during this cycle stage.
Roadmap
Intel Tick-Tock Roadmap | |||
---|---|---|---|
Cycle | Process | Introduction | Microarchitecture |
Tick | 65 nm | 2006 | Core |
Tick | 45 nm | 2007 | Penryn |
Tock | 45 nm | 2008 | Nehalem |
Tick | 32 nm | 2009 | Westmere |
Tock | 32 nm | 2010 | Sandy Bridge |
Tick | 22 nm | 2011 | Ivy Bridge |
Tock | 22 nm | 2013 | Haswell |
Tick | 14 nm | 2014 | Broadwell |
Tock | 14 nm | 2015 | Skylake |