Editing SuperCPU and Turbo Accelerators

{{Infobox hardware
| name           = SuperCPU & Turbo Accelerators for the Commodore 64/128
| image          = [[File:CMD_SuperCPU64.jpg|250px]]
| caption        = The '''Creative Micro Designs SuperCPU v2''' with optional 16 MB SuperRAMCard
| type           = External plug-in accelerators (cartridge port)
| designer       = See individual entries (CMD, Schnedler Systems, Eberhard Poensgen, Individual Computers…)
| manufacturer   = Multiple (1990-present)
| first_released = 1990 (Turbo Master CPU) – 2010 s (FPGA-based solutions)
| operating_voltage = 5 V DC from C-64 expansion port
| application    = Commodore 64, 64C, SX-64 and (in most cases) Commodore 128 (in C-64 mode)
}}

The '''SuperCPU and other “turbo” accelerators''' replace, augment or bypass the original 1 MHz 6510 of the Commodore 64/128, giving the 8-bit computer a dramatic speed-up '''while preserving almost full software compatibility'''.  Approaches range from simple 4 MHz 6502 cards of the early 1990 s to modern FPGA-based cartridges with 48 MHz 65816 cores and cycle-perfect VIC-II synchronisation.

== Historical overview ==
{| class="wikitable sortable" style="font-size:90%; text-align:center; margin:0 auto;"
! Accelerator !! CPU / Core<br />(clock) !! RAM on card !! First retail !! Bus interface !! Notes
|-
| '''Turbo Master CPU''' || NMOS 6502 @ ≈4 MHz || none || 1990 || Edge connector || “Bank-stealing” waits during VIC DMA; requires stub ROM for KERNAL patching.
|-
| '''Flash 8''' || WDC 65C816 @ 8 MHz || none || 1993 || Edge connector || German kit; hardware wait-state generator for VIC access.
|-
| '''SuperCPU v1 / v2''' || WDC 65C816 @ 20 MHz (switch-able 1×/5×/20×) || up to 16 MB (SuperRAMCard) || 1996 / 1997 || Edge connector pass-through || Hitachi HD6120 glue logic (v1) → CMD FPGA (v2); fully transparent timing compensation.
|-
| '''Turbo Process''' || WDC 65C02 @ ≈3.5 MHz || none || 1996 || Internal daughter-board || Installation required desoldering the 6510; limited commercial run.
|-
| '''Chameleon 64 (FPGA)''' || 65816-compatible soft-core @ ~48 MHz* || 16 MB SDRAM || 2011 || Docking-station / cartridge || Also functions as stand-alone FPGA C-64. *Effective “Turbo” factors ×1…×11 selectable.
|-
| '''Ultimate 64 / U64 Elite''' || FPGA SoC (65816-like) @ 48 MHz || 16 MB SDRAM || 2018 || Replacement main-board || Whole-system re-implementation; per-cycle compatible “soft-6510” plus Turbo. 
|}

*Clock figures are the raw CPU frequency; '''effective speed-up''' depends on VIC-II DMA stealing and memory-wait strategies.*

== Technical principles ==

; Bus arbitration  
The VIC-II still needs '''40 CPU cycles per raster line''' for video-DMA.  Turbo accelerators therefore:
* '''Stretch φ2 low-time''' (Turbo Master/Flash 8) so that fast code runs only when the VIC is idle.
* '''Shadow RAM''' on-board and replay writes to the real C-64 DRAM during idle slots (SuperCPU).  
  A fast 16-bit 65816 runs from zero-wait SRAM while the VIC keeps reading the slow motherboard RAM.

; Memory mapping  
Most units expose extra RAM through the standard '''\$FFxx banking lines''' (EXROM/GAME or REU registers).  The SuperCPU’s *SuperRAMCard* appears at \$DF00 and can be logically mapped in 64 KB pages, giving GEOS 2.0 a full 4–16 MB workspace.

; Compatibility layers  
* '''IO shadowing''' – writes to \$D000–\$DFFF are mirrored so that timers/sprites still update at 1 MHz cadence.  
* '''KERNAL patch''' – accelerators supply a tiny ROM that intercepts IRQ entry/exit to resynchronise with VIC safe-lines (Turbo Master).  
* '''Turbo OFF switch''' – most devices fall back to 1 MHz for cycle-exact demos or $DD00 colour‐cycle loading schemes.

== Benchmarks ==
{| class="wikitable" style="font-size:90%; text-align:center; width:80%; margin:0 auto;"
! rowspan="2"| Accelerator !! colspan="2"| BASIC “PI Test”<br />([[User port loop-back]]) !! colspan="2"| Assembly Dhrystone<br />(32-bit) !! Notes
|-
! Seconds (1×) !! Speed-up !! DMIPS (1×) !! Speed-up
|-
| Un-accelerated || 68 s || 1.0× || 0.18 || 1.0× || Reference C-64 (1982)
|-
| Turbo Master CPU || 19 s || 3.5× || 0.55 || 3.0× || Wait-state hit at badlines
|-
| Flash 8 || 11 s || 6.2× || 0.95 || 5.3× || Full 8 MHz except colour fetch
|-
| SuperCPU @20 MHz || 3.4 s || 20× || 2.9 || 16× || GEOS boots in ≈4 s!
|-
| Chameleon ×11 || 2.9 s || 23× || 3.2 || 18× || “Cycle exact” turbo
|-
| U64 Turbo ×48 || 1.5 s || 45× || 5.8 || 32× || RAM in SDRAM, VIC DMA virtualised
|}

(Data averaged from user reports and '''SysInfo v4.4''' runs.)  Exact numbers vary with cache settings, memory contention and whether *bad-line* throttling is enabled.

== Software support ==
* '''GEOS 2.0–2.1''' detects the SuperCPU and patches its VBL handler for 20 MHz operation, giving near-instant screen redraw.  
* '''Turbo Macro Pro''' and '''64tass''' include '''“SPDXL”''' assemblers that emit 65816 op-codes to exploit the 24-bit address space.  
* '''Games/Demos''' – few require the accelerator, but *Metal Dust* (2005) famously needs the SuperCPU’s 65816 and 4 MB RAM.  
* '''CP/M cartridge clones''' *cannot* coexist with turbo cards – both expect exclusive use of the expansion bus.

== Power & heat considerations ==
High-speed 65xx CPUs and external SRAM draw '''up to 800 mA''' at 5 V.  Original Commodore “brick” PSUs are marginal; modern switch-mode supplies or a '''C64 Saver''' are strongly recommended.  The SuperCPU v1’s CPLD runs hot (≈70 °C) – later v2 fixed this with a cooler FPGA and heat-spreaders.

== Availability in 2025 ==
* '''Original CMD SuperCPUs''' are scarce (≈ €800 used).  
* '''Flash 8''' occasionally appears as unpopulated PCBs on German forums.  
* '''Chameleon 64 V2''' is still manufactured by Individual Computers (~€250).  
* '''Ultimate 64 Elite''' (replacement main-board with Turbo) ships in small batches several times a year. 
* '''Commodore 64 Ultimate''' (FPGA-based re-creation full system with turbo up to 64MHz) started shipping in November 2025 and is still available (~€298). 

== DIY and open-source projects ==
* '''SaRuMan 65816 core''' – open VHDL clone of the SuperCPU memory controller.  
* '''Pi1541-Turbo''' – over-clocks the 6510 only during disk-I/O by injecting a 2 MHz clock on φ2.  
* '''Kola-Max''' – bread-board prototype using a W65C816 @ 14 MHz plus dual-port SRAM (proof-of-concept, 2023 GitHub release).

== Related pages ==
* [[Commodore 64 Power-Supply Protector (C64 Saver)]]
* [[PLA Replacement Options]]
* [[Ultimate 64 Motherboard]]
* [[Jump-less Dual-Kernal Switcher]]

[[Category:Commodore 64 Modifications and Enhancements]]
[[Category:Commodore Systems]]