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Cake Pattern
The Cake Pattern was chosen as the main method for constructing circuits in Rocket Chip. The prime example is RocketTile. Here, the various pieces, such as integer pipeline, icache, dcache, and so forth, are "mixed in" according to the Cake Pattern.
The LazyModule and Mixins are the base underneath Cake Pattern. What Cake does is make “twins” -- an outer twin and an inner twin.. There is also a “bundle” in the June 2017 version we discuss here.
The term twin
is actually non-standard, we're using it because we need an easy name, when talking about these things. And they always have to be in pairs.. so “twin” is a natural word to use..
The twins are connected together in an inheritance graph. In the case of RocketTile, the way that circuit elements get pulled into the tile is by inheriting the circuit code. (this method of using inheritance is the essence of the Cake Pattern). It ends up being pretty straight forward once you see the elements of the pattern.
Here’s some code:
class RocketTile(val rocketParams: RocketTileParams, val hartid: Int)(implicit p: Parameters) extends BaseTile(rocketParams)(p)
with HasLazyRoCC // implies CanHaveSharedFPU with CanHavePTW with HasHellaCache
with CanHaveScratchpad { // implies CanHavePTW with HasHellaCache with HasICacheFrontend
So, HasLazyRoCC
is a cake outer twin, and CanHaveScratchpad
is also an outer twin.
RocketTile
itself, is also an outer twin!
Mixing these twins in is how circuit code gets placed inside a RocketTile. (By "mixing them in" we mean inheriting them via with
and extends
Here’s one path through the code:
trait HasLazyRoCC extends CanHaveSharedFPU with CanHavePTW with HasTileLinkMasterPort {
This mixes in three more outer twins. One of them is CanHavePTW:
trait CanHavePTW extends HasHellaCache {
Which mixes in yet another outer twin: HasHellaCache
:
trait HasHellaCache extends HasTileLinkMasterPort with HasTileParameters {
This time, the mixed-in twins are just Rocket plumbing -- they’re not circuit related..
BUT, inside HasHellaCache
is this:
val dcache = HellaCache(hartid, tileParams.dcache.get.nMSHRs == 0, findScratchpadFromICache _)
This is where an actual circuit is created!
So, that is how a cache gets included inside RocketTile. Separately, that cache has to be wired up..
This wiring happens back inside RocketTile:
dcachePorts += core.io.dmem
And that’s how the cake pattern works..
We’ve created a diagram of the code: http://dev1.intensivate.com:8080/intensivate/?https=0#G1w5LD3RJFXGNl2pRhaX_F-cp3cP_5GdMW
This shows the cake pattern linkages:
- the double lined boxes with sharp edges are outer twins
- the doubled lined boxes with rounded corners are inner twins
- the rounded corner single line boxes are actual circuit instantiation code.
Each arrow corresponds one-to-one with “extends” or “with” keyword
- The red arrows are for outer twins inheritance
- The thin black arrows are for inner twin inheritance.
This diagram provides quick navigation of the code, to find the spot that you need to modify -- so if you’re in RocketTile and see “dcache.something” then you can look in the diagram, and find “val dcache = “ and then you know where the code for dcache is.
And if you’re thinking about making a change, you can look at the diagram and see what will have to be changed, and then go straight to those spots.
A very basic, step-by-step, introduction (with plenty of examples) to the Scala Cake Pattern is given here.
A brief explanation of a design that uses Cake Pattern and an example in Chisel are given here.
[1] Adam Warski, Using Scala traits as modules, 2014 [2] Wei Song, Cake pattern, 2017