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{{intel title|Silvermont|arch}} | {{intel title|Silvermont|arch}} | ||
{{microarchitecture | {{microarchitecture | ||
+ | | atype = CPU | ||
| name = Silvermont | | name = Silvermont | ||
| designer = Intel | | designer = Intel | ||
Line 17: | Line 18: | ||
| speculative = Yes | | speculative = Yes | ||
| renaming = Yes | | renaming = Yes | ||
− | | isa | + | |isa=x86-64 |
− | |||
| stages min = 12 | | stages min = 12 | ||
| stages max = 14 | | stages max = 14 | ||
Line 39: | Line 39: | ||
| cache = Yes | | cache = Yes | ||
− | | l1i = 32 | + | | l1i = 32 KiB |
| l1i per = Core | | l1i per = Core | ||
| l1i desc = 8-way set associative | | l1i desc = 8-way set associative | ||
− | | l1d = 24 | + | | l1d = 24 KiB |
| l1d per = Core | | l1d per = Core | ||
| l1d desc = 6-way set associative | | l1d desc = 6-way set associative | ||
− | | l2 = 1 | + | | l2 = 1 MiB |
| l2 per = 2 Cores | | l2 per = 2 Cores | ||
| l2 desc = 16-way set associative | | l2 desc = 16-way set associative | ||
Line 61: | Line 61: | ||
| successor link = intel/microarchitectures/airmont | | successor link = intel/microarchitectures/airmont | ||
}} | }} | ||
− | '''Silvermont''' is [[Intel]]'s [[22 nm]] [[microarchitecture]] for the {{intel|Atom|Atom family}} of [[system on chip]]s. Introduced in 2013, Silvermont was the successor to {{intel|Saltwell}}, targeting smartphones, tablets, embedded devices, and consumer electronics. | + | '''Silvermont''' ('''SLM''') is [[Intel]]'s [[22 nm]] [[microarchitecture]] for the {{intel|Atom|Atom family}} of [[system on chip]]s. Introduced in 2013, Silvermont was the successor to {{intel|Saltwell}}, targeting smartphones, tablets, embedded devices, and consumer electronics. |
== Codenames == | == Codenames == | ||
Line 70: | Line 70: | ||
| {{intel|Merrifield}} || {{intel|Tangier}} || Smartphones | | {{intel|Merrifield}} || {{intel|Tangier}} || Smartphones | ||
|- | |- | ||
− | | {{intel|Moorefield}} || {{intel| | + | | {{intel|Moorefield}} || {{intel|Anniedale}} || High-end Smartphones |
|- | |- | ||
− | | {{intel|Slayton}} || {{intel| | + | | {{intel|Slayton}} || {{intel|SoFIA}} || Smartphones (3G only) |
|- | |- | ||
| {{intel|Bay Trail}} || {{intel|Bay Trail}} || Tablets | | {{intel|Bay Trail}} || {{intel|Bay Trail}} || Tablets | ||
Line 80: | Line 80: | ||
| {{intel|Edisonville}} || {{intel|Rangeley}} || Embedded Networking | | {{intel|Edisonville}} || {{intel|Rangeley}} || Embedded Networking | ||
|} | |} | ||
+ | |||
+ | == Process Technology == | ||
+ | {{main|intel/microarchitectures/ivy bridge#Process_Technology|l1=Ivy Bridge § Process Technology}} | ||
+ | Silvermont-based chips are manufactured on Intel's [[22 nm process]]. | ||
== Architecture== | == Architecture== | ||
Line 90: | Line 94: | ||
* Support up to {{intel|Westmere}} | * Support up to {{intel|Westmere}} | ||
* Multi-core modular system (up to 8 cores) | * Multi-core modular system (up to 8 cores) | ||
+ | |||
+ | ==== New instructions ==== | ||
+ | Silvermont introduced a number of {{x86|extensions|new instructions}}: | ||
+ | |||
+ | * {{x86|SSE4.1|<code>SSE4.1</code>}} - Streaming SIMD Extensions, Version 4.1 | ||
+ | * {{x86|SSE4.2|<code>SSE4.2</code>}} - Streaming SIMD Extensions, Version 4.2 | ||
+ | * {{x86|MOVBE|<code>MOVBE</code>}} - Move Big-Endian instruction | ||
+ | * {{x86|CRC32|<code>CRC32</code>}} - [[Hardware-accelerated]] [[CRC32]] | ||
+ | * {{x86|POPCNT|<code>POPCNT</code>}} - Hardware-accelerated [[population count]] | ||
+ | * {{x86|CLMUL|<code>CLMUL</code>}} - Hardware-accelerated Carry-less Multiplication | ||
+ | * {{x86|AES|<code>AES</code>}} - Hardware-accelerated AES operations | ||
+ | * {{x86|RDRAND|<code>RDRAND</code>}} - Secure Key Technology extension | ||
+ | * {{x86|PREFETCHW|<code>PREFETCHW</code>}} - Prefetch data into caches, hinting a write is expected in the future | ||
=== Block Diagram === | === Block Diagram === | ||
Line 96: | Line 113: | ||
=== Core Modules === | === Core Modules === | ||
[[File:silvermont modules.svg|right|450px]] | [[File:silvermont modules.svg|right|450px]] | ||
− | Silvermont | + | Silvermont employs a modular core design. Each module consists of 2 cores and 2 threads with exclusive hardware - resources are not shared. Within each module is a 1 MB L2 cache shared between the two cores. The L1 is still identical to {{intel|Saltwell|Saltwell's}}: 32K L1I$ and 24K L1D$. Each module as a dedicated point-to-point interface (IDI) to the system agent. Each module has a per-core frequency and power management support. This is a departure from previous microarchitectures as well as similar desktop (e.g. Core) where all cores are tied to the same frequency. |
==== System Agent ==== | ==== System Agent ==== | ||
Line 108: | Line 125: | ||
** Hardware prefetchers | ** Hardware prefetchers | ||
** L1 Cache: | ** L1 Cache: | ||
− | *** 32 | + | *** 32 [[KiB]] 8-way [[set associative]] instruction, 64 B line size |
− | *** 24 | + | *** 24 KiB 6-way set associative data, 64 B line size |
*** Per core | *** Per core | ||
** L2 Cache: | ** L2 Cache: | ||
− | *** 1 | + | *** 1 MiB 16-way set associative, 64 B line size |
*** Per 2 cores | *** Per 2 cores | ||
+ | *** 32B/cycle, 14 cycle latency | ||
** L3 Cache: | ** L3 Cache: | ||
*** No level 3 cache | *** No level 3 cache | ||
** RAM | ** RAM | ||
− | *** Maximum of | + | *** Maximum of 1 GiB, 2 GiB, and 4 GiB |
*** dual 32-bit channels, 1 or 2 ranks per channel | *** dual 32-bit channels, 1 or 2 ranks per channel | ||
Line 124: | Line 142: | ||
=== Pipeline === | === Pipeline === | ||
− | While Silvermont share some similarities with {{\\|Saltwell}}, it introduces a number of significant changes that sets it apart from part {{intel|Atom}} microarchitectures. Like {{\\|Saltwell}}, the pipeline is still uses a dual-issue design; however it has a pipeline that is 2 stages shorter with a branch misprediction penalty of 3 cycles lower. Silvermont is the first microarchitecture to [[ | + | While Silvermont share some similarities with {{\\|Saltwell}}, it introduces a number of significant changes that sets it apart from part {{intel|Atom}} microarchitectures. Like {{\\|Saltwell}}, the pipeline is still uses a dual-issue design; however it has a pipeline that is 2 stages shorter with a branch misprediction penalty of 3 cycles lower. Silvermont is the first microarchitecture to introduce [[out-of-order execution]] (OoOE) |
[[File:silvermont pipeline.svg]] | [[File:silvermont pipeline.svg]] |
Latest revision as of 08:35, 25 September 2019
Edit Values | |
Silvermont µarch | |
General Info | |
Arch Type | CPU |
Designer | Intel |
Manufacturer | Intel |
Introduction | 2013 |
Phase-out | 2015 |
Process | 22 nm |
Core Configs | 1, 2, 4, 8 |
Pipeline | |
Type | Superscalar |
Speculative | Yes |
Reg Renaming | Yes |
Stages | 12-14 |
Instructions | |
ISA | x86-64 |
Extensions | MOVBE, MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, POPCNT, AES, PCLMUL, RDRND |
Cache | |
L1I Cache | 32 KiB/Core 8-way set associative |
L1D Cache | 24 KiB/Core 6-way set associative |
L2 Cache | 1 MiB/2 Cores 16-way set associative |
Cores | |
Core Names | Tangier, Valleyview, Avoton, Rangeley |
Succession | |
Silvermont (SLM) is Intel's 22 nm microarchitecture for the Atom family of system on chips. Introduced in 2013, Silvermont was the successor to Saltwell, targeting smartphones, tablets, embedded devices, and consumer electronics.
Codenames[edit]
Platform | Core | Target |
---|---|---|
Merrifield | Tangier | Smartphones |
Moorefield | Anniedale | High-end Smartphones |
Slayton | SoFIA | Smartphones (3G only) |
Bay Trail | Bay Trail | Tablets |
Edisonville | Avoton | Microservers |
Edisonville | Rangeley | Embedded Networking |
Process Technology[edit]
- Main article: Ivy Bridge § Process Technology
Silvermont-based chips are manufactured on Intel's 22 nm process.
Architecture[edit]
Silvermont introduced a number of significant changes from the previous Atom microarchitecture in addition to the increase performance and lower power consumption.
Key changes from Saltwell[edit]
- Pipeline is now OoOE
- 14 stage (2 shorter)
- 10 stage panelty for miss (3 shorter)
- Support up to Westmere
- Multi-core modular system (up to 8 cores)
New instructions[edit]
Silvermont introduced a number of new instructions:
-
SSE4.1
- Streaming SIMD Extensions, Version 4.1 -
SSE4.2
- Streaming SIMD Extensions, Version 4.2 -
MOVBE
- Move Big-Endian instruction -
CRC32
- Hardware-accelerated CRC32 -
POPCNT
- Hardware-accelerated population count -
CLMUL
- Hardware-accelerated Carry-less Multiplication -
AES
- Hardware-accelerated AES operations -
RDRAND
- Secure Key Technology extension -
PREFETCHW
- Prefetch data into caches, hinting a write is expected in the future
Block Diagram[edit]
Core Modules[edit]
Silvermont employs a modular core design. Each module consists of 2 cores and 2 threads with exclusive hardware - resources are not shared. Within each module is a 1 MB L2 cache shared between the two cores. The L1 is still identical to Saltwell's: 32K L1I$ and 24K L1D$. Each module as a dedicated point-to-point interface (IDI) to the system agent. Each module has a per-core frequency and power management support. This is a departure from previous microarchitectures as well as similar desktop (e.g. Core) where all cores are tied to the same frequency.
System Agent[edit]
The system agent (Silvermont System Agent') acts very much like a North Bridge however it does a much better job than previous Atom microarchitectures performance-wise because it's capable of reordering all requests from all consumers (e.g. Core, GPU).
IDI[edit]
While the previous Atom architecture did away with the memory controller by integrating and other support chips on-die, it still used a Front Side Bus implementation to talk to North Bridge. In Silvermont, this was replaced with a lightweight in-die interconnect (IDI) - same one used in the Core processors. The use of IDI should have noticeable performance impact per thread.
Memory Hierarchy[edit]
- Cache
- Hardware prefetchers
- L1 Cache:
- 32 KiB 8-way set associative instruction, 64 B line size
- 24 KiB 6-way set associative data, 64 B line size
- Per core
- L2 Cache:
- 1 MiB 16-way set associative, 64 B line size
- Per 2 cores
- 32B/cycle, 14 cycle latency
- L3 Cache:
- No level 3 cache
- RAM
- Maximum of 1 GiB, 2 GiB, and 4 GiB
- dual 32-bit channels, 1 or 2 ranks per channel
Multithreading[edit]
Silvermont dropped support for Intel Hyper-Threading Technology.
Pipeline[edit]
While Silvermont share some similarities with Saltwell, it introduces a number of significant changes that sets it apart from part Atom microarchitectures. Like Saltwell, the pipeline is still uses a dual-issue design; however it has a pipeline that is 2 stages shorter with a branch misprediction penalty of 3 cycles lower. Silvermont is the first microarchitecture to introduce out-of-order execution (OoOE)
Silvermont pipeline decodes and issues 2 instructions and dispatches 5 operations/cycle.
Instruction Fetch[edit]
Instruction Fetch, just like in previous microarchs make up the first three stages of the pipeline. However, with the introduction of out-of-order execution, silvermont's more aggressive fetching and branch prediction mean stalled instructions do not clog the entire pipeline as it did in Saltwell.
Instruction Decode[edit]
In previous generations of microarchitectures, common software code had roughly 5% of instructions split up into micro-ops. In Silvermont this is reduced down to just 1-2%. This reduction translates directly into performance because it eliminates the 3-4 additional cycles of overhead. Silvermont has a second branch predictor that can make more accurate predictions based on previously unknown information (e.g. target address from memory or register) and override the generic predictor. Nevertheless the expense of branch misprediction penalties was also reduced by 3 stages (down to 10 cycles from 13 in Saltwell).
Branch Prediction[edit]
Silvermont has two branch predictions: one that controls the instruction fetching and a second one that can override the first during the decode stage after gather additional information. The second predictor controls the speculative instruction issuing. For the first predictor, Silvermont uses a Branch Target Buffer to determine the next fetch address which also includes a 4-entry Return Stack Buffer for calls and returns handling.
Die[edit]
8-core Avoton Die:
Cores[edit]
- Tangier - SoCs for Smartphones
- Valleyview - SoCs for Tablets
- Avoton - SoCs for Microservers
- Rangeley - SoCs for Embedded Networking
All Silvermont Chips[edit]
Silvermont Chips | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|
Main processor | IGP | ||||||||||
Model | µarch | Platform | Core | Launched | SDP | TDP | Freq | Max Mem | Name | Freq | Max Freq |
x3-C3130 | Silvermont | SoFIA | SoFIA | 4 March 2015 | 1,000 MHz 1 GHz 1,000,000 kHz | Mali-400 MP2 | 480 MHz 0.48 GHz 480,000 KHz | ||||
x3-C3200RK | Silvermont | SoFIA | SoFIA | 4 March 2015 | 2 W 2,000 mW 0.00268 hp 0.002 kW | 1,100 MHz 1.1 GHz 1,100,000 kHz | 2,048 MiB 2,097,152 KiB 2,147,483,648 B 2 GiB 0.00195 TiB | Mali-450 MP4 | 600 MHz 0.6 GHz 600,000 KHz | ||
x3-C3230RK | Silvermont | SoFIA | SoFIA | 4 March 2015 | 2 W 2,000 mW 0.00268 hp 0.002 kW | 1,100 MHz 1.1 GHz 1,100,000 kHz | 2,048 MiB 2,097,152 KiB 2,147,483,648 B 2 GiB 0.00195 TiB | Mali-450 MP4 | 600 MHz 0.6 GHz 600,000 KHz | ||
x3-C3405 | Silvermont | SoFIA | SoFIA | April 2015 | 2 W 2,000 mW 0.00268 hp 0.002 kW | 1,200 MHz 1.2 GHz 1,200,000 kHz | 2,048 MiB 2,097,152 KiB 2,147,483,648 B 2 GiB 0.00195 TiB | Mali T720 MP2 | 456 MHz 0.456 GHz 456,000 KHz | ||
x3-C3445 | Silvermont | SoFIA | SoFIA | April 2015 | 2 W 2,000 mW 0.00268 hp 0.002 kW | 1,200 MHz 1.2 GHz 1,200,000 kHz | 2,048 MiB 2,097,152 KiB 2,147,483,648 B 2 GiB 0.00195 TiB | Mali T720 MP2 | 456 MHz 0.456 GHz 456,000 KHz |
codename | Silvermont + |
core count | 1 +, 2 +, 4 + and 8 + |
designer | Intel + |
first launched | 2013 + |
full page name | intel/microarchitectures/silvermont + |
instance of | microarchitecture + |
instruction set architecture | x86-64 + |
manufacturer | Intel + |
microarchitecture type | CPU + |
name | Silvermont + |
phase-out | 2015 + |
pipeline stages (max) | 14 + |
pipeline stages (min) | 12 + |
process | 22 nm (0.022 μm, 2.2e-5 mm) + |