Difference between revisions of "Copper"

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The copper's program storage is 1k big; since each instruction is 2 bytes it can store exactly 512 instructions, numbered 0-511. The copper is controlled by a word accessed through Next Registers {{NextRegNo|$61}} and {{NextRegNo|$62}}.
 
The copper's program storage is 1k big; since each instruction is 2 bytes it can store exactly 512 instructions, numbered 0-511. The copper is controlled by a word accessed through Next Registers {{NextRegNo|$61}} and {{NextRegNo|$62}}.
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Update: From TBU .26 this will have increased to 2K so it can store 1024 instructions numbered 0-1023.
  
 
The copper control word has the structure: %cc00000i %iiiiiiii. I is the instruction index (0-511), and c is used to set the behavior mode of the copper, as follows:
 
The copper control word has the structure: %cc00000i %iiiiiiii. I is the instruction index (0-511), and c is used to set the behavior mode of the copper, as follows:

Revision as of 21:09, 23 February 2018

The Copper is a simple programmed system which allows certain Next Registers to be altered automatically at certain scanline positions.

"Copper" is a strangulation of "co-processor" and is a term taken from the Amiga which had a similar function. The copper on the Spectrum Next is not associated with the Raspberry Pi 'coprocessor'.

A program is uploaded to the Copper by sending it, byte by byte, to Copper Data ($60). Each Copper instruction is 16 bits wide and there are only 2 opcodes, so only a single bit in an instruction determines the operation. The two operations are:

Opcode Bit pattern Effect
WAIT %1hhhhhhv %vvvvvvvv Wait for raster line v (0-311) and horizontal position h*8 (h is 0-55)
MOVE %0rrrrrrr %vvvvvvvv Write value v to Next register r

The copper's program storage is 1k big; since each instruction is 2 bytes it can store exactly 512 instructions, numbered 0-511. The copper is controlled by a word accessed through Next Registers Copper Control Low Byte ($61) and Copper Control High Byte ($62).

Update: From TBU .26 this will have increased to 2K so it can store 1024 instructions numbered 0-1023.

The copper control word has the structure: %cc00000i %iiiiiiii. I is the instruction index (0-511), and c is used to set the behavior mode of the copper, as follows:

C bits Effect
%00 STOP, copper does nothing
%01 START, then never reset
%10 START, loop continuously
%11 START, then reset at next VBlank

If you are using one of the resetting modes (%01) (%11) then you can mark the "end" of the copper program by waiting for a line higher than 311. Since these lines will never be reached, the copper will essentially halt until reset.