OSMX64 is a 64-bit multi-core SoC architecture designed to be fast, efficient, and low-cost. ## Registers Registers store data which can be accessed at any time. These include special registers for | Name | Size | Purpose | | ---------- | -------- | ----------------------------------- | | `x0` | 64 bits | Read-only, always `0` | | `x1`-`x15` | 64 bits | General purpose, read-write | | `f0`-`f7` | 32 bits | IEEE 754 single-precision number | | `d0`-`d7` | 64 bits | IEEE 754 double-precision number | | `v0`-`v7` | 512 bits | SIMD vector data | | `pc` | 64 bits | Program counter, `0` on startup | | `sp` | 64 bits | Stack pointer | | `fp` | 64 bits | Frame pointer | | `ptp` | 64 bits | Page tree pointer | ### Internal Registers Only accessed by the CPU for certain instructions. Cannot be directly read/written. | Name | Size | Purpose | | ----- | ------- | --------------------------- | | `rp` | 64 bits | Return pointer for branches | | `ins` | 64 bits | Current instruction at `pc` | ## Instructions ### Bitwise Instructions Bitwise logic operations can write to all registers except `v0`-`v7`, `x0` and `pc`. Can read from all registers except `v0`-`v7`. | Mnemonic | Effect | | ---------------------------- | ---------------------- | | `mov` dst: r/m, src: r/m/imm | `dst` = `src` | | `and` dst: r/m, val: r/m/imm | `dst` = `dst` & `val` | | `or` dst: r/m, val: r/m/imm | `dst` = `dst` \| `val` | | `xor` dst: r/m, val: r/m/imm | `dst` = `dst` ^ `val` | #### Example ``` /* Set x1 to 5 */ mov x1, 5 /* Ands x1 (which equals 5) with 1 */ and x1, 1 /* x1 now equals 1 */ ``` ### Arithmetic Instructions Arithmetic operations can write to all registers except `v0`-`v7`, `x0` and `pc`. Can read from all registers except `v0`-`v7`. | Mnemonic | Effect | | ---------------------------- | --------------------- | | `add` dst: r/m, val: r/m/imm | `dst` = `dst` + `val` | | `sub` dst: r/m, val: r/m/imm | `dst` = `dst` - `val` | | `mul` dst: r/m, val: r/m/imm | `dst` = `dst` * `val` | | `div` dst: r/m, val: r/m/imm | `dst` = `dst` / `val` | | `inc` dst: r/m | `dst` = `dst` + `1` | | `dec` dst: r/m | `dst` = `dst` - `1` | #### Example ``` /* Set x1 to 5 */ mov x1, 5 /* Increment x1 */ inc x1 /* x1 now equals 6 */ ``` ### Control Flow Instructions Control flow instructions are used to control which instructions the CPU executes, allowing for the concept of procedures and conditional execution. | Mnemonic | Effect | | -------------------------------------- | ----------------------------------------------- | | `hlt` | Execution halted | | `br` dst: r/m/imm | `pc` = `dst` | | `brl` dst: r/m/imm | `rp` = `pc` + size of opcode, then `pc` = `dst` | | `bret` | `pc` = `rp` | | `beq` a: r/m, b: r/m/imm, dst: r/m/imm | Iff `a` = `b`, `pc` = `dst` | | `bne` a: r/m, b: r/m/imm, dst: r/m/imm | Iff `a` != `b`, `pc` = `dst` | | `blt` a: r/m, b: r/m/imm, dst: r/m/imm | Iff `a` < `b`, `pc` = `dst` | | `bgt` a: r/m, b: r/m/imm, dst: r/m/imm | Iff `a` > `b`, `pc` = `dst` | | `ble` a: r/m, b: r/m/imm, dst: r/m/imm | Iff `a` <= `b`, `pc` = `dst` | | `bge` a: r/m, b: r/m/imm, dst: r/m/imm | Iff `a` >= `b`, `pc` = `dst` | #### Example ``` /* Subtract x2 from x1 */ sub x1, x2 beq x1, 0, zero mov x1, 2 zero: mov x1, 3 /* Iff x1 - x2 = 0, x1 equals 3 */ /* Iff x1 - x1 != 0, x1 equals 2 */ ``` Copyright (c) 2024 Quinn Stephens and Ian Marco Moffett. All rights reserved.