Intel's Silverthorne Unveiled: Detailing Baby Centrino
by Anand Lal Shimpi on February 20, 2008 12:00 AM EST- Posted in
- CPUs
The Memory Subsystem
Silverthorne's in-order architecture also means that it is susceptible to high memory latencies. If a dependent instruction's data isn't available in cache on an out-of-order processor, it can simply re-order instructions around the dependency. With an in-order core however, if an instruction needs data that isn't yet available, it can't continue executing other independent instructions further down the instruction queue until that data becomes available. Making matters worse, Silverthorne has no on-die memory controller - this is something it will get in 2009/2010 with the Moorestown platform.
Silverthorne lacks an integrated memory controller and graphics core simply because Intel's 45nm memory controller and graphics core designs weren't finalized in time for Silverthorne's launch. Moorestown, which will also be built on Intel's 45nm process, will add an on-die memory controller and on-die graphics as well.
Thankfully, Intel has outfitted Silverthorne with fairly large caches. The L1 cache is unusually asymmetric with a 32KB instruction and 24KB data cache, a decision made to optimize for performance, die size, and cost. The L2 cache is an 8-way 512KB design, very similar to what was used in the Core architecture.
While Silverthorne is built entirely on Intel's high-k/metal gate 45nm process, there is one major difference: SRAM cell size. Intel uses a 0.382 um^2 SRAM cell in Silverthorne compared to 0.346 um^2 in Core 2. Each SRAM cell is an 8 transistor design compared to 6 transistors in Core 2. The larger cell size increases the die size of Silverthorne but it draws less power and runs at a lower voltage.
FSB, Performance, Clock Speeds, and Transistors
Silverthorne is connected to the outside world by a quad-pumped FSB similar to what Intel uses in its other processors, with some significant power tweaks. The FSB can operate at either 533MHz or 400MHz depending on power state/performance demands.
Dual Mode FSB
Ever since the P6 Intel has used a Gunning Transistor-Logic (GTL) based FSB, while Silverthorne's FSB can work in either a GTL or CMOS based mode. In CMOS mode power consumption is reduced significantly by turning off on-die termination and operating at half the voltage of GTL mode. Unfortunately, Intel couldn't give us more details as to what tradeoffs are made in order to achieve lower power operation in CMOS mode.
Silverthorne's pipeline depth is a bit on the long side, especially considering that it is an in-order core (which generally have shorter pipelines than out-of-order designs). Even the Core 2 architecture features a shorter 14-stage design, so we suspect that Intel needed a longer pipe to reach Silverthorne's clock and power targets.
Intel has stated publicly that Silverthorne is going to offer performance competitive with the first Pentium M processors, from both a clock speed and application performance standpoint. We'll touch on the application performance side of that momentarily, but the clock speed claims are reasonable. Thanks to a fairly deep pipeline, a very simple in-order core, and a very clockable 45nm manufacturing process Intel should have no problems hitting clock speeds in the 1 - 2GHz range. Intel's ISSCC paper states that performance is similar to mainstream Ultra-Mobile PCs, meaning that we should expect these things to perform at the level of a low 1GHz Core Solo processor.
The decision to go in-order made a lot of sense to Intel. Intel took its 20W TDP mobile Core 2 processors, scaled them down to 3W, and discovered that the best it could manage was a paltry 1GHz clock speed. The power consumption needed to be lower and clock speeds/performance needed to be higher, and thus a new design using an in-order architecture was necessary. This is especially true once you start looking at average and idle power, both of which need to be in the 10s - 100s of mW; in-order is necessary given the performance targets. While eventually we may see an out-of-order derivative (much as desktop microprocessors were in-order until out-of-order became feasible), Intel stated that for the next 5 years we're looking at in-order.
Silverthorne is built far more modularly than Core 2 or any of Intel's previous mobile microprocessors; it is honestly built more like a GPU than a CPU. Only 9% of the chip uses custom logic, and the rest is built using standard Intel circuit libraries. The L2 cache, PLLs, data I/O, addressing I/O, and a few other elements are standard logic for two reasons: time to market and flexibility.
Intel has been working on Silverthorne for 4 years now, so time to market was clearly not an issue for this first design - but for subsequent incarnations, it is. A standard design that's very modular will allow Intel to quickly integrate custom logic on a demand basis for specific markets. Intel could conceivably have a slightly different version of Silverthorne, with quick turnaround, for CE markets or for embedded applications.
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