3.1. Rocket Chip
Rocket Chip generator is an SoC generator developed at Berkeley and now supported by SiFive. Chipyard uses the Rocket Chip generator as the basis for producing a RISC-V SoC.
Rocket Chip is distinct from Rocket core, the in-order RISC-V CPU generator. Rocket Chip includes many parts of the SoC besides the CPU. Though Rocket Chip uses Rocket core CPUs by default, it can also be configured to use the BOOM out-of-order core generator or some other custom CPU generator instead.
A detailed diagram of a typical Rocket Chip system is shown below.
The diagram shows a dual-core
Rocket system. Each
Rocket core is
grouped with a page-table walker, L1 instruction cache, and L1 data cache into
Rocket core can also be swapped for a
BOOM core. Each tile can
also be configured with a RoCC accelerator that connects to the core as a
3.1.2. Memory System
The tiles connect to the
SystemBus, which connect it to the L2 cache banks.
The L2 cache banks then connect to the
MemoryBus, which connects to the
DRAM controller through a TileLink to AXI converter.
To learn more about the memory hierarchy, see Memory Hierarchy.
For MMIO peripherals, the
SystemBus connects to the
ControlBus attaches standard peripherals like the BootROM, the
Platform-Level Interrupt Controller (PLIC), the core-local interrupts (CLINT),
and the Debug Unit.
The BootROM contains the first stage bootloader, the first instructions to run when the system comes out of reset. It also contains the Device Tree, which is used by Linux to determine what other peripherals are attached.
The PLIC aggregates and masks device interrupts and external interrupts.
The core-local interrupts include software interrupts and timer interrupts for each CPU.
The Debug Unit is used to control the chip externally. It can be used to load data and instructions to memory or pull data from memory. It can be controlled through a custom DMI or standard JTAG protocol.
PeripheryBus attaches additional peripherals like the NIC and Block Device.
It can also optionally expose an external AXI4 port, which can be attached to
vendor-supplied AXI4 IP.
To learn more about adding MMIO peripherals, check out the MMIO Peripherals section.
You can also add DMA devices that read and write directly from the memory
system. These are attached to the
FrontendBus can also
connect vendor-supplied AXI4 DMA devices through an AXI4 to TileLink converter.
To learn more about adding DMA devices, see the Adding a DMA Device section.