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Revision as of 13:32, 9 April 2016
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Saltwell µarch | |
General Info |
Saltwell was a microarchitecture for Intel's 32 nm ultra-low power system on chips first introduced in late 2011 for the Atom family. Saltwell is a shrink of Bonnell which also incorporated all support chips on-die. Saltwell, unlike its predecessor was aimed directly at smartphones (as opposed to MIDs).
Contents
Codenames
Platform | Core | Target |
---|---|---|
Medfield | Penwell | Smartphones |
Cedar Trail | Cedarview | Netbooks |
Clover Trail+ | Cloverview | Tablets |
Bordenville | Centerton | Microservers |
Bordenville | Briarwood | Microservers |
Berryville | CE (set-tops) |
Architecture
Saltwell's primary goals were:
- Improve on Bonnell by getting rid of older support chips
- Add enhancements using 32 nm process while transitioning to 22 nm
- Improve GPU, power
- Burst frequencies
Key changes from Bonnell
- L2$ increase rate
- L2$ now seperate rail
- New low-power SRAM for machine state
- Larger instruction fetch
- Double the size of the branch prediction history table
Memory Hierarchy
- Cache
- Hardware prefetchers
- L1 Cache:
- 32 KB 8-way set associative instruction
- 1 read and 1 write port
- 24 KB 6-way set associative data
- 1 read and 1 write port
- 8 transistors (instead of 6) to reduce voltage
- Per core
- 32 KB 8-way set associative instruction
- L2 Cache:
- 512 KB 8-way set associative
- ECC
- Shrinkable from 512 KB to 128 KB (2-way)
- 32B/cycle and 32 outstanding cache requests
- separate voltage rail, fixed @ 1.05V
- Per core
- L3 Cache:
- No level 3 cache
- Non-Cache Shared State Memory
- 256KB low-power SRAM
- separate voltage plane
- always-on block that stores architectural states while in various power saving modes
- RAM
- Maximum of 1GB, 2 GB, and 4 GB
- dual 32-bit channels, 1 or 2 ranks per channel
Functional Units
The number of functional units were kept to minimum to cut on power consumption.
- 2 Integer ALUs (1 for jumps, 1 for shifts)
- 2 FP ALUs (1 adder, 1 for others)
- No Integer multiplier & divider
Pipeline
Saltwell has an almost identical pipeline to Bonnell's with a 16-stage pipeline with a 13-stage miss penalty. It's also still a dual-issue superscalar but with in-order execution. Reordering logic is was still omitted due to power and area restrictions.
The longer pipeline allows a more evenly spreading of heat across the chip with more units. This also allows a higher clock rate.
- Instruction Fetch
- 3 stages
- 48 Bytes/Cycle (lower if SMT)
- Instruction Decode
- 3 stages
- Instructions with up to 3 prefixes/Cycle
- Instruction Dispatch
- 2 stages
- Source Operand Read
- 1 stage
- reading register operand
- 1 stage
- Data Cache Access
- 3 stages
- 1 stage for calculating
- 2 stages for reading cache
- 3 stages
- Execution
- 2 clusters
- integers
- quick cache access due to direct connection
- floating point & SIMD
- integers
- 2 clusters
- Exception & MT Handling
- 2 stages
- Commit
- 1 stage
Multithreading
Saltwell has support for multithreading - up to two threads per core. However each thread compete for the same resources which does inherently means they run slower than they would if they were to run alone.
Branch Prediction
- Two-level adaptive predictor
- 12-bit branch history register
- Pattern history table has 8192 entries (shared between threads), twice that of Bonnell
- Branch buffer target has 128 entries (4-way, 32 sets)
- Unconditional jumps are ignored
- Always-taken and never-taken are marked in the table
- Penalties:
- 13 stages for miss prediction
- 7 stages for correct prediction but missing branch target buffer (BTB)
Cores
- Penwell - SoCs specifically for smartphones
- Cedarview - SoCs for netbooks
- Cloverview - SoCs for tablets
- Centerton - SoCs for Microservers; added support for Intel VT and ECC memory
- Briarwood - SoCs for Microservers
- Berryville - SoCs for consumer electronics (e.g. set-tops)