What MCUs are you thinking of?
To the best of my knowledge (and Google-fu), 26K really isn't a lot of transistors for an embedded MCU - at least not a fully-featured 32-bit one comparable to a minimal RISC-V core. An ARM Cortex M0, which is pretty much the smallest thing out there, is around 10K gates => around 40K transistors. This is also around the same size as a minimal RISC-V core AFAICT.
The ARM core has a shifter, though.
There's reason RV32E and RV64E, with half the registers, are a thing. RV32I/RV64I isn't small enough.
There are many chips in the market that do embed 8051s for janitorial tasks, because it is small and not legally encumbered. Some chips have several non-exposed tiny embedded CPUs within.
RISC-V is replacing many of these, bringing modern tooling. There's even open source designs like SERV that fit in a corner of an already small FPGA, leaving room for other purposes.
Per https://en.wikipedia.org/wiki/Transistor_count, even an 8051 has 50K transistors, which reinforces my claim that 26K really doesn't seem like a big ask for an MCU core. Whether that means a barrel shifter is worth it or not is a totally orthogonal question, of course.
(Although I do have to eat my words here - I didn't check that Wikipedia page, and it does actually list a ~6K RISC-V core! It's an experimental academic prototype "made from a two-dimensional material [...] crafted from molybdenum disulfide"; I don't know if that construction might allow for a more efficient transistor count and it's totally impractical - 1KHz clock speed, 1-bit ALU, etc. - for almost any purpose, but it is technically a RISC-V implementation significantly smaller than 26K)
I don't know if that construction might allow for a more efficient transistor count and it's totally impractical - 1KHz clock speed, 1-bit ALU, etc. - for almost any purpose, but it is technically a RISC-V implementation significantly smaller than 26K
That sounds like a microcoded RISC-V implementation, which can really be done for any ISA at the extreme expense of speed.
If I'm not mistaken, microcode is a thing at least on Intel CPU's, and that is how they patched Spectre, Meltdown and other vulnerabilities – Intel released a microcode update that BIOS applies at the cold start and hot patches the CPU.
Maybe other CPU's have it as well, though I do not have enough information on that.
> There's reason RV32E and RV64E, with half the registers, are a thing. RV32I/RV64I isn't small enough.
This is actually kind of counter to your point. The really tiny micro-controllers from the 80s only had 224 bits of registers. RV32E is at least twice that (16 registers*32 bits), and modern mcus generally use 2-4kbs of sram, so the overhead of a 32 bit barrel shifter is pretty minimal.