At this writing, the supported CPU types are:
@itemize @bullet
-@item @code{aarch64} -- this is an ARMv8-A core with an MMU
-@item @code{arm11} -- this is a generation of ARMv6 cores
-@item @code{arm720t} -- this is an ARMv4 core with an MMU
-@item @code{arm7tdmi} -- this is an ARMv4 core
-@item @code{arm920t} -- this is an ARMv4 core with an MMU
-@item @code{arm926ejs} -- this is an ARMv5 core with an MMU
-@item @code{arm966e} -- this is an ARMv5 core
-@item @code{arm9tdmi} -- this is an ARMv4 core
+@item @code{aarch64} -- this is an ARMv8-A core with an MMU.
+@item @code{arm11} -- this is a generation of ARMv6 cores.
+@item @code{arm720t} -- this is an ARMv4 core with an MMU.
+@item @code{arm7tdmi} -- this is an ARMv4 core.
+@item @code{arm920t} -- this is an ARMv4 core with an MMU.
+@item @code{arm926ejs} -- this is an ARMv5 core with an MMU.
+@item @code{arm946e} -- this is an ARMv5 core with an MMU.
+@item @code{arm966e} -- this is an ARMv5 core.
+@item @code{arm9tdmi} -- this is an ARMv4 core.
@item @code{avr} -- implements Atmel's 8-bit AVR instruction set.
(Support for this is preliminary and incomplete.)
-@item @code{cortex_a} -- this is an ARMv7-A core with an MMU
+@item @code{avr32_ap7k} -- this an AVR32 core.
+@item @code{cortex_a} -- this is an ARMv7-A core with an MMU.
@item @code{cortex_m} -- this is an ARMv7-M core, supporting only the
compact Thumb2 instruction set. Supports also ARMv6-M and ARMv8-M cores
-@item @code{dragonite} -- resembles arm966e
+@item @code{cortex_r4} -- this is an ARMv7-R core.
+@item @code{dragonite} -- resembles arm966e.
@item @code{dsp563xx} -- implements Freescale's 24-bit DSP.
(Support for this is still incomplete.)
+@item @code{dsp5680xx} -- implements Freescale's 5680x DSP.
@item @code{esirisc} -- this is an EnSilica eSi-RISC core.
The current implementation supports eSi-32xx cores.
-@item @code{fa526} -- resembles arm920 (w/o Thumb)
-@item @code{feroceon} -- resembles arm926
+@item @code{fa526} -- resembles arm920 (w/o Thumb).
+@item @code{feroceon} -- resembles arm926.
+@item @code{hla_target} -- a Cortex-M alternative to work with HL adapters like ST-Link.
@item @code{ls1_sap} -- this is the SAP on NXP LS102x CPUs,
allowing access to physical memory addresses independently of CPU cores.
@item @code{mem_ap} -- this is an ARM debug infrastructure Access Port without a CPU, through which bus read and write cycles can be generated; it may be useful for working with non-CPU hardware behind an AP or during development of support for new CPUs.
-@item @code{mips_m4k} -- a MIPS core
+@item @code{mips_m4k} -- a MIPS core.
+@item @code{mips_mips64} -- a MIPS64 core.
+@item @code{nds32_v2} -- this is an Andes NDS32 v2 core.
+@item @code{nds32_v3} -- this is an Andes NDS32 v3 core.
+@item @code{nds32_v3m} -- this is an Andes NDS32 v3m core.
@item @code{or1k} -- this is an OpenRISC 1000 core.
The current implementation supports three JTAG TAP cores:
@itemize @minus
@item @code{Advanced debug interface} (See: @url{http://opencores.org/project@comma{}adv_debug_sys})
@item @code{SoC Debug Interface} (See: @url{http://opencores.org/project@comma{}dbg_interface})
@end itemize
+@item @code{quark_d20xx} -- an Intel Quark D20xx core.
+@item @code{quark_x10xx} -- an Intel Quark X10xx core.
+@item @code{riscv} -- a RISC-V core.
+@item @code{stm8} -- implements an STM8 core.
+@item @code{testee} -- a dummy target for cases without a real CPU, e.g. CPLD.
@item @code{xscale} -- this is actually an architecture,
not a CPU type. It is based on the ARMv5 architecture.
@end itemize