# `stfd` — Store Floating-Point Double > **Category:** [Memory](../categories/memory.md) · **Form:** [D](../forms/D.md) · **Opcode:** `0xd8000000` ## Assembler Mnemonics | Mnemonic | XML entry | Flags | Description | | --- | --- | --- | --- | | `stfd` | `stfd` | — | Store Floating-Point Double | | `stfdu` | `stfdu` | — | Store Floating-Point Double with Update | | `stfdux` | `stfdux` | — | Store Floating-Point Double with Update Indexed | | `stfdx` | `stfdx` | — | Store Floating-Point Double Indexed | ## Syntax ```asm stfd [FS], [d]([RA0]) stfdu [FS], [d]([RA]) stfdux [FS], [RA], [RB] stfdx [FS], [RA0], [RB] ``` ## Encoding ### `stfd` — form `D` - **Opcode word:** `0xd8000000` - **Primary opcode (bits 0–5):** `54` - **Extended opcode:** — - **Synchronising:** no | Bits | Field | Meaning | | --- | --- | --- | | 0–5 | `OPCD` | primary opcode | | 6–10 | `RT` | destination GPR (or RS when storing) | | 11–15 | `RA` | source GPR (0 ⇒ literal 0 for RA0 forms) | | 16–31 | `D/SI/UI` | 16-bit signed or unsigned immediate | ### `stfdu` — form `D` - **Opcode word:** `0xdc000000` - **Primary opcode (bits 0–5):** `55` - **Extended opcode:** — - **Synchronising:** no | Bits | Field | Meaning | | --- | --- | --- | | 0–5 | `OPCD` | primary opcode | | 6–10 | `RT` | destination GPR (or RS when storing) | | 11–15 | `RA` | source GPR (0 ⇒ literal 0 for RA0 forms) | | 16–31 | `D/SI/UI` | 16-bit signed or unsigned immediate | ### `stfdux` — form `X` - **Opcode word:** `0x7c0005ee` - **Primary opcode (bits 0–5):** `31` - **Extended opcode:** `759` - **Synchronising:** no | Bits | Field | Meaning | | --- | --- | --- | | 0–5 | `OPCD` | primary opcode | | 6–10 | `RT/FRT/VRT` | destination | | 11–15 | `RA/FRA/VRA` | source A | | 16–20 | `RB/FRB/VRB` | source B | | 21–30 | `XO` | extended opcode (10 bits) | | 31 | `Rc` | record-form flag | ### `stfdx` — form `X` - **Opcode word:** `0x7c0005ae` - **Primary opcode (bits 0–5):** `31` - **Extended opcode:** `727` - **Synchronising:** no | Bits | Field | Meaning | | --- | --- | --- | | 0–5 | `OPCD` | primary opcode | | 6–10 | `RT/FRT/VRT` | destination | | 11–15 | `RA/FRA/VRA` | source A | | 16–20 | `RB/FRB/VRB` | source B | | 21–30 | `XO` | extended opcode (10 bits) | | 31 | `Rc` | record-form flag | ## Operands | Field | Role | Description | | --- | --- | --- | | `FS` | stfd: read; stfdu: read; stfdux: read; stfdx: read | Source floating-point register. | | `RA0` | stfd: read; stfdx: read | Source GPR; when the encoded register number is 0 the operand is the literal 64-bit zero, **not** `r0`. | | `d` | stfd: read; stfdu: read | 16-bit signed displacement (`d`) added to the base address register. | | `RA` | stfdu: read; stfdu: write; stfdux: read; stfdux: write | Source GPR (`r0`–`r31`). | | `RB` | stfdux: read; stfdx: read | Source GPR. | ## Register Effects ### `stfd` - **Reads (always):** `FS`, `RA0`, `d` - **Reads (conditional):** _none_ - **Writes (always):** _none_ - **Writes (conditional):** _none_ ### `stfdu` - **Reads (always):** `FS`, `RA`, `d` - **Reads (conditional):** _none_ - **Writes (always):** `RA` - **Writes (conditional):** _none_ ### `stfdux` - **Reads (always):** `FS`, `RA`, `RB` - **Reads (conditional):** _none_ - **Writes (always):** `RA` - **Writes (conditional):** _none_ ### `stfdx` - **Reads (always):** `FS`, `RA0`, `RB` - **Reads (conditional):** _none_ - **Writes (always):** _none_ - **Writes (conditional):** _none_ ## Status-Register Effects _No condition-register or status-register effects._ ## Operation (pseudocode) ``` EA <- (RA|0) + EXTS(d) MEM(EA, 8) <- (FRS) ``` ## C Translation Example ```c /* C translation: the xenia-rs interpreter arm below in */ /* Implementation References is the authoritative semantic */ /* snapshot. Translate it line-by-line: */ /* - ctx.gpr[N] -> r[N] (or f[]/v[] for FPRs/VRs) */ /* - mem.read_u*/write_u* -> mem_read_u*_be / mem_write_u*_be */ /* - ctx.update_cr_signed(fld, v) -> update_cr_signed(fld, v) */ /* - ctx.xer_ca / xer_ov / xer_so -> xer.CA / xer.OV / xer.SO */ /* The Register Effects and Status-Register Effects tables above */ /* enumerate every side effect a faithful translation must emit. */ ``` ## Implementation References **`stfd`** - xenia-canary XML: [`tools/ppc-instructions.xml` — search for `mnem="stfd"`](../../xenia-canary/tools/ppc-instructions.xml) - xenia-canary emit: [`src/xenia/cpu/ppc/ppc_emit_memory.cc:1014`](../../xenia-canary/src/xenia/cpu/ppc/ppc_emit_memory.cc#L1014) - xenia-rs opcode: [`crates/xenia-cpu/src/opcode.rs:71`](../../xenia-rs/crates/xenia-cpu/src/opcode.rs#L71) - xenia-rs decoder: [`crates/xenia-cpu/src/decoder.rs:377`](../../xenia-rs/crates/xenia-cpu/src/decoder.rs#L377) - xenia-rs interpreter: [`crates/xenia-cpu/src/interpreter.rs:1473-1481`](../../xenia-rs/crates/xenia-cpu/src/interpreter.rs#L1473-L1481)
xenia-rs interpreter body (frozen snapshot) ```rust PpcOpcode::stfd => { let ea = if instr.ra() == 0 { 0u64 } else { ctx.gpr[instr.ra()] }; let ea = ea.wrapping_add(instr.d() as i64 as u64) as u32; if let Some(t) = ctx.reservation_table.as_ref().filter(|t| t.is_enabled()) { if t.has_active_reservers() { t.invalidate_for_write(ea); } } mem.write_f64(ea, ctx.fpr[instr.rs()]); ctx.pc += 4; } ```
**`stfdu`** - xenia-canary XML: [`tools/ppc-instructions.xml` — search for `mnem="stfdu"`](../../xenia-canary/tools/ppc-instructions.xml) - xenia-canary emit: [`src/xenia/cpu/ppc/ppc_emit_memory.cc:1026`](../../xenia-canary/src/xenia/cpu/ppc/ppc_emit_memory.cc#L1026) - xenia-rs opcode: [`crates/xenia-cpu/src/opcode.rs:71`](../../xenia-rs/crates/xenia-cpu/src/opcode.rs#L71) - xenia-rs decoder: [`crates/xenia-cpu/src/decoder.rs:378`](../../xenia-rs/crates/xenia-cpu/src/decoder.rs#L378) - xenia-rs interpreter: [`crates/xenia-cpu/src/interpreter.rs:1482-1490`](../../xenia-rs/crates/xenia-cpu/src/interpreter.rs#L1482-L1490)
xenia-rs interpreter body (frozen snapshot) ```rust PpcOpcode::stfdu => { let ea = ctx.gpr[instr.ra()].wrapping_add(instr.d() as i64 as u64) as u32; if let Some(t) = ctx.reservation_table.as_ref().filter(|t| t.is_enabled()) { if t.has_active_reservers() { t.invalidate_for_write(ea); } } mem.write_f64(ea, ctx.fpr[instr.rs()]); ctx.gpr[instr.ra()] = ea as u64; ctx.pc += 4; } ```
**`stfdux`** - xenia-canary XML: [`tools/ppc-instructions.xml` — search for `mnem="stfdux"`](../../xenia-canary/tools/ppc-instructions.xml) - xenia-canary emit: [`src/xenia/cpu/ppc/ppc_emit_memory.cc:1036`](../../xenia-canary/src/xenia/cpu/ppc/ppc_emit_memory.cc#L1036) - xenia-rs opcode: [`crates/xenia-cpu/src/opcode.rs:71`](../../xenia-rs/crates/xenia-cpu/src/opcode.rs#L71) - xenia-rs decoder: [`crates/xenia-cpu/src/decoder.rs:837`](../../xenia-rs/crates/xenia-cpu/src/decoder.rs#L837) - xenia-rs interpreter: [`crates/xenia-cpu/src/interpreter.rs:1500-1508`](../../xenia-rs/crates/xenia-cpu/src/interpreter.rs#L1500-L1508)
xenia-rs interpreter body (frozen snapshot) ```rust PpcOpcode::stfdux => { let ea = ctx.gpr[instr.ra()].wrapping_add(ctx.gpr[instr.rb()]) as u32; if let Some(t) = ctx.reservation_table.as_ref().filter(|t| t.is_enabled()) { if t.has_active_reservers() { t.invalidate_for_write(ea); } } mem.write_f64(ea, ctx.fpr[instr.rs()]); ctx.gpr[instr.ra()] = ea as u64; ctx.pc += 4; } ```
**`stfdx`** - xenia-canary XML: [`tools/ppc-instructions.xml` — search for `mnem="stfdx"`](../../xenia-canary/tools/ppc-instructions.xml) - xenia-canary emit: [`src/xenia/cpu/ppc/ppc_emit_memory.cc:1046`](../../xenia-canary/src/xenia/cpu/ppc/ppc_emit_memory.cc#L1046) - xenia-rs opcode: [`crates/xenia-cpu/src/opcode.rs:71`](../../xenia-rs/crates/xenia-cpu/src/opcode.rs#L71) - xenia-rs decoder: [`crates/xenia-cpu/src/decoder.rs:836`](../../xenia-rs/crates/xenia-cpu/src/decoder.rs#L836) - xenia-rs interpreter: [`crates/xenia-cpu/src/interpreter.rs:1491-1499`](../../xenia-rs/crates/xenia-cpu/src/interpreter.rs#L1491-L1499)
xenia-rs interpreter body (frozen snapshot) ```rust PpcOpcode::stfdx => { let ea = if instr.ra() == 0 { 0u64 } else { ctx.gpr[instr.ra()] }; let ea = ea.wrapping_add(ctx.gpr[instr.rb()]) as u32; if let Some(t) = ctx.reservation_table.as_ref().filter(|t| t.is_enabled()) { if t.has_active_reservers() { t.invalidate_for_write(ea); } } mem.write_f64(ea, ctx.fpr[instr.rs()]); ctx.pc += 4; } ```
## Special Cases & Edge Conditions - **Bit-exact double store.** Writes the 64-bit IEEE binary64 contents of `FRS` directly to memory; no rounding, no format conversion. The xenia snapshot calls `mem.write_f64(ea, ctx.fpr[instr.rs()])`, which preserves the exact bit pattern (including signalling NaNs). - **No FPSCR side effects.** Like [`lfd`](lfd.md), `stfd` cannot raise IEEE exceptions: there is no rounding step. Contrast [`stfs`](stfs.md), where double→single rounding **can** raise inexact / overflow / underflow. - **`RA0` (non-update forms).** `RA = 0` in `stfd` and `stfdx` selects literal zero. Update forms `stfdu` / `stfdux` invoke `RA = 0` as an invalid form. - **Update-form post-write.** `stfdu` / `stfdux` write the computed `EA` back to `RA` after the store. No `FRS` / `RA` collision possible — `RS` is an FPR, `RA` is a GPR. - **Big-endian write.** Byte at `EA` is the FPR's most-significant byte (sign + part of exponent), byte at `EA+7` is the least-significant mantissa byte. Xenia's `mem.write_f64` performs host-side byte-swap. - **Alignment.** Xenon tolerates unaligned 8-byte FP stores. PowerISA permits implementations to raise alignment exceptions on cache-inhibited storage. - **MSR[FP] required.** Disabled FP unit raises Floating-Point Unavailable. ## Related Instructions - [`lfd`](lfd.md), [`lfdu`](lfd.md), [`lfdx`](lfd.md), [`lfdux`](lfd.md) — corresponding loads. - [`stfs`](stfs.md) — single-precision store with format conversion (can raise FPSCR). - [`stfiwx`](stfiwx.md) — store low 32 bits of FPR as integer word. - [`std`](std.md) — integer doubleword store (same width, GPR source). ## IBM Reference - [AIX 7.3 — `stfd` (Store Floating-Point Double)](https://www.ibm.com/docs/en/aix/7.3.0?topic=set-stfd-store-floating-point-double-instruction) - [AIX 7.3 — `stfdu` / `stfdx` / `stfdux`](https://www.ibm.com/docs/en/aix/7.3.0?topic=set-stfdu-store-floating-point-double-update-instruction)