NCR 77C21 NCR 77C22 NCR 77C22E 160pin 4MB, 1280x1024 256 col NCR 77C22E+ 160pin NCR 77C32BLT 208pin BitBLT support 3C4h index 5 (R/W): Extended Function Enable Register bit 0 Enables extended registers if set (3C4h index >=8, 3d4h index >=30h) 1 Reserved (always 0). 2 If set the Hardware Configuration registers (3C4h index 23h bit 0-3, index 27h bit 1, index 1Fh bit 5 and index 1Eh bits 0-1) can be modified. On the 77c32BLT this bit causes the memory to wrap at 512K when set. 3-7 Reserved 3C4h index 8 (R): Version Number Register bit 0-3 Chip revision 4-7 Product Code: 0=77C22, 1=77C21, 2=77C22E (bits 0-3 <8) or 77C22E+ (bits 0-3 >=8), 3=77c32BLT. 3C4h index 0Ah (R/W): Cursor Color One Register bit 0-7 Foreground color of the Bit Mapped Cursor. Selected if plane 0=0 and plane 1=1. 3C4h index 0Bh (R/W): Cursor Color Zero Register bit 0-7 Background color of the Bit Mapped Cursor. Selected if plane 0=0 and plane 1=0. 3C4h index 0Ch (R/W): Cursor Control Register bit 0 Cursor Enable. When set enables the Bit Mapped cursor. 1-2 Cursor Height select. 0=16 lines, 1=32 lines, 2=64 lines and 3=128 lines. 3 Blink Frequency Select. If set the Bit Mapped Cursor is on for 16 frames and off for another 16 frames. If clear it is on for 8 frames and off for another 8 frames. 4 Blink Enable. If set the Bit Mapped Cursor blinks. 5-6 (77c22E+,32 only) Cursor Repeat Count. Number of bytes per pixel the cursor passes over: 0: 1byte/pixel, 1: 2b/p, 2: 3b/p, 3: 4b/p 7 (32 only) Cursor Width Select. If set selects a 64pixel wide cursor, 32pixel if clear 3C4h index 0Dh (R/W): Cursor X Location High register bit 0-2 Bits 8-10 of the horizontal position of the Bitmapped Cursor. The lower 8 bits are in 3C4h index 0Eh. 3-7 Reserved 3C4h index 0Eh (R/W): Cursor X Location Low register bit 0-7 Lower 8 bits of the horizontal position of the Bitmapped Cursor. The upper 3 bits are in 3C4h index 0Dh. 3C4h index 0Fh (R/W): Cursor Y Location High register bit 0-1 (22,22E) Bits 8-9 of the vertical position of the Bitmapped Cursor. The lower 8 bits are in 3C4h index 10h. 2 (22E+,32) Bit 10 of the Cursor Vertical position 3C4h index 10h (R/W): Cursor Y Location Low register bit 0-7 Lower 8 bits of the vertical position of the Bitmapped Cursor. The upper 2 bits are in 3C4h index 0Fh. 3C4h index 11h (R/W): Cursor X Index Register. bit 0-4 (22,22E,22E+) Horizontal location of the Hot Spot from the left of the cursor. 0-5 (32) Bit 5 of the Cursor X Index 3C4h index 12h (R/W): Cursor Y Index Register. bit 0-6 Vertical location of the Hot Spot from the top of the cursor. 7 Reserved. 3C4h index 13h (R/W): Cursor Storage Register High. bit 0-7 Bits 8-15 of the address of the cursor bitmap. The lower 8 bits are in 3C4h index 14h. 3C4h index 14h (R/W): Cursor Storage Register Low. bit 0-7 Bits 0-7 of the address of the cursor bitmap. The upper 8 bits are in 3C4h index 13h. Must be an even address Note: The 22E+ and 32 only documents the lower 4 bits of index 14h and doesn't document index 13h ?? 3C4h index 15h (R/W): Cursor Storage Offset Register High. bit 0-7 Bits 8-15 of the Cursor Storage Offset. The lower 8 bits are in 3C4h index 16h. 3C4h index 16h (R/W): Cursor Storage Offset Register Low. bit 0-7 Bits 0-7 of the Cursor Storage Offset. The upper 8 bits are in 3C4h index 15h. If extended memory is enabled (3C4h index 1Eh bit4 set) the Cursor Storage Offset is multiplied with 16 and added to the Cursor Storage Address to form a 20 bit address. Note: The cursor map is stored as a #lines*(32+32bit) bitmap The behavior of the cursor in each pixel is defined by the combination of the pixels from the two 32bit maps (The first pixel of the cursor is stored in the last byte): 1st 2nd Description 0 0 Background color (index 0Bh) 0 1 Foreground color (index 0Ah) 1 0 screen data (transparent cursor) 1 1 Inverted screen data (XOR cursor) Note: It is possible that for the 77c22e revision 2 the pixel order in the map should be reversed. 3C4h index 17h (R/W): Cursor Pixel Mask Register. bit 0-7 Each bit set allows the corresponding bit in a pixel to be affected by the Bitmapped Cursor. 3C4h index 18h (R/W): Primary Host Offset Register High. bit 0-7 Bits 8-15 of the Primary Host Offset. The lower 8 bits are in 3C4h index 19h. 3C4h index 19h (R/W): Primary Host Offset Register Low. bit 0-7 Bits 0-7 of the Primary Host Offset. The upper 8 bits are in 3C4h index 18h. If extended memory is enabled (3C4h index 1Eh bit4 is set) all Host addresses are modified by multiplying either the Primary or the Secondary Host Offset with 16 and adding the result to the Host address.3C4h index 1Eh controls which operations use which Host Offset. 3C4h index 1Ah (R/W): Display Offset Register High. (22,22E) bit 0-7 Bits 8-15 of the Display Offset. The lower 8 bits are in 3C4h index 1Bh. 3C4h index 1Ah (R/W): Linear Address Register 0 (32 only) bit 0-1 Aperture Size Select. Selects the size of the linear Aperture Size: Selected by: 0: 1M Aperture Location 20-31 1: 2M Aperture Location 21-31 2: 4M Aperture Location 22-31 4-7 Aperture Location Bits 20-23. Bits 20-23 of the Address of the linear Aperture. Bits 24-31 are in index 1Bh. Depending on the Aperture Size (bits 0-1) bits 20-21 of the address may not be used. 3C4h index 1Bh (R/W): Display Offset Register Low. (22,22E) bit 0-7 Bits 0-7 of the Display Offset. The upper 8 bits are in 3C4h index 1Ah. If extended memory and Display Offset are enabled (3C4h index 1Eh bit 4 and 3 are both set) the Display Offset is multiplied with 16 and added to the normal display address. 3C4h index 1Bh (R/W): Linear Address Register 1 (32 only) bit 0-7 Aperture Location Bits 24-31. The upper 8 bits of the Address of the linear Aperture. Bits 20-23 are in index 1Ah 3C4h index 1Ch (R/W): Secondary Host Offset Register High. bit 0-7 Bits 8-15 of the Secondary Host Offset. The lower 8 bits are in 3C4h index 1Dh. 3C4h index 1Dh (R/W): Secondary Host Offset Register Low. bit 0-7 Bits 0-7 of the Secondary Host Offset. The upper 8 bits are in 3C4h index 1Ch. 3C4h index 1Eh controls which operations use this register 3C4h index 1Eh (R/W): Extended Memory Enable Register. bit 0-1 DRAM Address Configuration. These bits can only be modified if 3C4h index 5 bit 2 is set. 0: 64Kx, 1: 256Kx, 3: 1Mx 2 Secondary Offset Enable. If this bit and bit 4 are set all read operations are modified by multiplying the Secondary Host Offset by 16 and adding the result to the host address. 3 (22,22E only) If this bit and bit 4 are set all display addresses are modified by multiplying the Display Offset by 16 and adding the result to the normal display address. 4 Extended Memory Enable. If set extended memory is enabled. 5-7 (22E+,32 only) Primary/Secondary Read/Write Select. 0: Write to Primary, Read from Secondary 1: Write to Primary, Read toggles from Secondary to Primary ? 2: Primary at A0000h-AFFFFh, Secondary at B0000h-BFFFFh. Both Read/Write 3: Read and Write to Secondary only 6: (22E+ only?) Primary at A0000h-A7FFFh, Secondary at A8000h -AFFFFh. Both Read/Write 3C4h index 1Fh (R/W): Extended Clocking Mode. bit 0-3 If bit 4 set this determines the font width: 0 4 bit wide font 1 7 bit wide font 2 8 bit wide font 3 9 bit wide font 4 10 bit wide font 5 11 bit wide font 6 12 bit wide font 7 13 bit wide font 8 14 bit wide font 9 15 bit wide font 0Bh 16 bit wide font 4 If set enables extended font width. 5 (22E,22E+) Clock Output enable if set. (32 only) Clock Select Bit 2 6 (22E,22E+) Clock Select Bit 2 (32 only) Clock Select Bit 3 7 Reserved 3C4h index 20h (R/W): Extended Video Memory Addressing Register bit 0 Addition of host address bit 16. If set (and 3CEh index 6 bits 2-3 = 0) the range A0000h-BFFFFh can be used as one 128K window 1 Extended chain-4 enable if set. 2-7 Reserved. 3C4h index 21h (R/W): Extended Pixel Control Register bit 0 Enable graphics byte path if set. Set in extended 256color modes 1 Enable packed/nibble pixel format (2 pixels of 4 bits per byte) if set. 2 (32 only) Packed Nibble to Targa Convert Enable. If set 16bit pixel data stored as (Bits 0-3 Red, 4-7 Green, 8-11 Blue) (I.e. NeXT) is displayed as (Bits 0-4 Red, 5-9 Green, 10-14 Red) (I.e. Targa). 4-5 Pixel Depth. The number of bytes per pixel. 0: 1-8 bits/pixel (1 byte), 1: 9-16b/p (2 bytes), 2: 17-24b/p (3 bytes). 2-7 Reserved. 3C4h index 22h (R/W): Bus Width Feed Back Register. bit 0 (not 32) Enables 16 bit memory access if set. 1 (not 32) Enables 16 bit I/O access if set 2 (22E+) Select AT/MCA/CPU Interface. If bit 4 is clear, this bit is set for AT busses and clear for MCA busses. If bit 4 set and bit 5 clear, this bit is set for 386DX systems, clear for 386SX systems. (32) AT/MCA Style Operation. If set the Video Subsystem Enable (VSE) register is at 46E8h (AT style), if clear at 3C3h (MCA style). 3 (22E+) Disable CHRDY High. If set CHRDY is driven low and then tri-stated, if clear CHRDY is driver low and upon assertion of CHRDY momentarily drives it high and then tri-states it to provide maximum system performance. (32 only) Enable Palette Shadowing. If set writes to the Palette RAM are executed, but the LDEV/ and LRDY/ signals are not asserted, allowing other devices to respond to the operation 4 (22E+) Enable CPU Bus. Set for Local Bus, clear for AT and MCA bus (32 only) Shadow All Writes. If set all write operations are executed, but the LDEV/ and LRDY/ signals are not asserted, allowing other devices to respond tp the operation 5 (22E+) Select 486 Processor Interface. If bit 4 set, this bit is set for 486 Local bus systems with 1x clocking, clear for 386 Local Bus systems with 2x clocking (32 only) Disable All Reads. If set all register reads are ignored, except for port 94h, 102h, 3C3h and 46E8h 6 (22E+) Enable 16bit BIOS if set (32 only) VSE Disable. If set accesses to the VSE register (46E8h or 3C3h) are ignored 7 (22E+) Enable BIOS Zero Wait State. If set the ZWS signal is asserted during accesses to C0000h-C7FFFh, resulting in zero wait states (32 only) VSE Read Disable. If set the VSE register (46E8h or 3C3h) is write only 3C4h index 23h (R/W): Performance Select Register bit 0 (not 32) Video Memory Width Select. Set if the video memory is 32 bit wide, clear if it is 16bit wide. 1 (not 32) Selects 3 clock RAS cycles if set. Should not be set!! 2 (not 22E+,32) Enables Fast Page Mode if set. Set by external resistor. (32 only) 4 Clock RAS# Precharge. If set the RAS precharge time is 4 clocks, 3 if clear. 3 (22E+,32) Select AT or PS/2 Style BIOS. If clear AT style operation is selected and mode switches between monochrome and color modes require the BIOS equipment flag to be updated, if clear PS/2 mode operation is selected and mode switches are unrestricted. 4 (22E,22E+) Wait State Select. In ATbus systems zero wait states is enabled if clear. In Local Bus mode one wait state if clear, no wait states if set (32 only) Zero Wait State Select. If set RDY will be asserted in the first T2 of a write operation (assuming the write FIFO is not full) and RDY will be asserted in the second T2 cycle of a read operation assuming the data is not ready 5 (22E+ only) RAS/CAS Swap. If set the RAS and CAS lines are swapped. Allows higher performance on Local Bus systems. 6 (not 22E+,32) Unlatched Memory Writes (Only in 256 color modes with OSC3). If set limits the duration of CHRDY assertion time by limiting FIFO fill lengths. 7 Latched Memory Reads. If set the assertion of CHRDY can be eliminated during read cycles. 3C4h index 24h (R/W): Color Expanded Write Foreground Register. bit 0-7 When in expanded write mode (3C4h index 26h bit 0 set) a monochrome bitmap can be expanded to 256 or 16 colors 8 or 16 pixels at a time. '1' bits in the bitmap are expanded to this color. For 16 color modes only bit 0-3 are used. 3C4h index 25h (R/W): Color Expanded Write Background Register. bit 0-7 When in expanded write mode (3C4h index 26h bit 0 set) a monochrome bitmap can be expanded to 256 or 16 colors 8 or 16 pixels at a time. '0' bits in the bitmap are expanded to this color. For 16 color modes only bit 0-3 are used. 3C4h index 26h (R/W): Extended Read/Write Control Register. bit 0 FG/BG Color Expansion Enable. When set enables expansion from monochrome bitmaps to full color using 3C4h index 24h and 25h as fore- and background colors. 1 256Color Expansion Enable Mode 1. If set enables 256 color expansion. If clear 8bit pixel values can be written to the framebuffer as in standard mode 13h. If clear and bit 0 is set then 16 color expansion is enabled. If set the upper 4 bits of the host data will be expanded to four separate pixels, each is the foreground color (index 24h) if the corresponding bit is set, the background color (index 25h) if it is clear 2 (not 22E+,32 ?) Color Expansion Enable Mode 2. If set accesses to even addresses will work on the upper 4 bits of the data at the even address and the lower 4 bits of the data at the following odd address. This mode should only be used when the chip is configured as a 16 bit device and only with even addresses. 3 Planar to Packed Pixel Conversion Enable. Enables 16/256 color pixel expansion when set. This bit should always be set when bit 1 is. 4 Packed Pixel Mask Enable. When in packed pixel modes, this bit is set to enable pixel masking operations. This bit should be set when bit 1 is set. 5 Packed Pixel Color Compare. When set configures the color compare logic to operate on packed pixel data. This bit should be set when bit 1 is set. 6 Quad Word Read Latch for Writes. If set 64 bits are written when 16 bit latched write operations occurs in write mode 1. Allows fast copy of data within the framebuffer. 7 (22,22E) Address Toggle. When bit 6 is set this bit specifies how address information is maintained with the latched data. (22E+,32) Color Transparency Enable. If set the upper 4 bits of rotated CPU data is the Transparency mask 3C4h index 27h (R/W): Miscellaneous Feature Select Register. bit 0 Extended Palette addressing enable. If set I/O address bit 15 is passed to the RS2 pin of the palette DAC chip, so that I/O address 03C6h - 03C9h address the first 4 registers of the DAC chip and 83C6h - 83C9h address four other registers. Useful for advanced DACs with overlay and command registers. 1 64K/256Kx16 Dual WE DRAMs. If set the 77C22E outputs DRAM interface signals for direct interfacing with 64K x 16 DRAMs (22E+: 64K/256Kx16). 2 Disable ROM BIOS CS. If set this bit disables the address decoding for the BIOS ROM at C000h-C7FFFh thus allowing this area to be used for other adapters. 3 User Defined Output (I/O Control pin 2). This bit is output on pin 2 On the 32BLT this is output on pin 126 4 (22E+,32) IRQ Drive Low. If set (or in MCA mode) the IRQ signal will drive low and release, if clear and in AT or Local Bus mode the IRQ signal will drive high and release to tristate. 5 (22E+) Enable Output of Pixel Data. If set disables tristating of pixel data when EVID/ is active (32 only) 3C0h-3DFh Full Range Addressing. If set LRDY/ is asserted for any I/O access in the range 3C0h-3DFh. 6 (22E+) Enable Output of PCLK. If set disables tristating of PCLK when EVID/ is active (32 only) Zero Wait State Read Enable. If set a zero wait read cycle results if the data is available from the read caches. 7 (22E+) Enable Output of BLANK/. If set disables tristating of the BLANK/ signal when EVID/ is active, if clear BLANK/ is tristated when EVID/ is active (32 only) Remapped BIOS Write. If set writes to A0000h-AFFFFh are written to the BIOS allowing BIOS RAM updates without disabling BIOS shadowing and reallocation of C0000h-C7FFFh 3C4h index 28h (R/W): Color Key Control (22E+,32 only) bit 0 Enable Color Key if set 1 Color Key Output Control. If set the Color Key Output signal goes active on the rising edge of PCLK, if clear on the falling edge. 2-3 Color Key Sample Interval. Determines the sample interval of the pixel byte stream. The sampling begins with the first byte after display has been enabled. 0: Every byte, 1: Every second byte, 2: Every third byte, 3: Every fourth byte. 4-5 Video Delay. Controls the delay of the tristate control signal after a color match in number of sample intervals to delay assertion of the tristate control signal. 0: 0 sample intervals, 1: 1, 2: 2, 3: 3 6 Disable Tristate Output. If set disables the tristating of PCLK and PIX during the color match interval, if clear PCLK and PIX will tristate during the color match interval 7 (32 only) Tristate Delay Mode. If set the tristate delay specified in bits 4-5 are in bytes, if clear in pixels. 3C4h index 29h (R/W): Color Key Match Value (22E+,32 only) bit 0-7 The color the Color Key circuitry looks for. When a match is found the Color Key Match signal is asserted 3C4h index 2Ah W(R/W): Color Key Match Value High (32 only) bit 0-15 Bits 8-23 of the Color Kay Match value in index 29h 3C4h index 2Dh (R/W): CRC Control (22E+ only) bit 0 Arm CRC Circuit. If set causes the CRC circuit to operate on video data for one frame (VSYNC to VSYNC). For interlaced modes two frames are used. 1 If set forces the CRC value to 1. Must be reset prior to CRC testing 2 Self Test Enable. If set no external data is used for the CRC generation. Intended for testing. 3C4h index 2Eh W(R): CRC Data (22E+ only) bit 0-15 The generated CRC value. 3C4h index 30h (R/W): Memory Mapped Register Control (32 only) bit 0 Enable Accelerator Control Menu (ACM). If set the ACM is enabled at the address specified in index 31h-33h. 1 Enable Cursor Register Access. If set the Cursor Position registers (3C4h index 0Dh-10h) can be accessed at index 0Ch in the ACM. 2 Enable Primary/Secondary Offset Register Access. If set the Primary and Secondary Offset registers (3C4h index 18h,19h,1Ch and 1Dh) can be accessed in the ACM 3C4h index 31h 3(R/W): ACM Aperture Register 1-3 (32 only) bit 0-23 Bits 8-31 of the ACM Aperture address. The lower 8 bits are 0. 3C4h index 3Eh (R/W): BIOS Utility Register 0 (32 only) bit 0-7 Scratch Pad 0 Set for other HiColor DACs 1 Set for DACs with fourth read of 3C6h = 44h (MUSIC MU9c9910) 2 Set for DACs with fourth read of 3C6h = B3h (which ??) 4 Appears to be the inverse of 3C4h index 22h bit 0 3C4h index 3Fh (R/W): BIOS Utility Register 1 (32 only) bit 0-7 Scratch Pad 3d4h index 30h (R/W): Extended Horizontal Timings Register. bit 0 Horizontal Total bit 8. Bit 8 of the Horizontal Total register. (3d4h index 0). Bit 9 is in index 32h bit 0. 1 Horizontal Display Enable End bit 8. Bit 8 of the Horizontal Display Enable End register (3d4h index 1). Bit 8 is in index 32h bit 1. 2 Start Horizontal Blanking bit 8. Bit 8 of the Start Horizontal Blanking register (3d4h index 2). Bit 9 is in index 32h bit 2. 3 Start Horizontal Retrace bit 8. Bit 8 of the Start Horizontal Retrace register (3d4 index 4). Bit 9 is in index 32h bit 4 4 (22E, 22E+,32) Interlace Enable. Enables interlace video for high resolution graphics modes. Note in interlaced modes the line doubling from index 9 bits 0-4&7 is ignored. Also Line Compare should not be used with interlaced modes 5 (22E+,32) Enable Extended End Bits. If set enables the extended end bits (index 32h bits 4-7 and index 33h bits 5-7) 6 (22E+) CRT Clock Divide by Two. If set the video clock is divided by 2. Note: The extended Function Enable Register (3C4h index 5) bit 0 must be 1 to access this register. 3d4h index 31h (R/W): Extended Start Address Register bit 0-3 Display Start Address bit 16-19. (bit 0-15 are in 3d4h index Ch and Dh). 4 Bit 8 of Address Row Offset. Bit 8 of the CRTC Offset (3d4h index 13h). 3d4h index 32h (R/W): Extended Horizontal Timings Two Register (22E+, 32) bit 0 Horizontal Total Bit 9. Bit 9 of the Horizontal Total register (3d4h index 0). Bit 8 is in index 30h bit 0 1 Horizontal Display Enable End bit 9. Bit 9 of the Horizontal Display End register (3d4h index 1). Bit 8 is in index 30h bit 1 2 Horizontal Blank Start bit 9. Bit 9 of the Start Horizontal Blanking register (3d4h index 2). Bit 8 is in index 30h bit 2. 3 Horizontal Retrace Start bit 9. Bit 9 of the Start Horizontal Retrace register (3d4h index 0). Bit 8 is in index 30h bit 3. 4-5 Horizontal Blank End bits 6-7. Bits 6-7 of the Horizontal Blanking End register (3d4h index 3). 6-7 Horizontal Retrace End bits 5-6. Bits 5-6 of the Horizontal Retrace register (3d4h index 5). 3d4h index 33h (R/W): Extended Vertical Timings (22E+ only) bit 0 Vertical Total bit 10. Bit 10 of the Vertical Total register (3d4h index 6). Bits 8 and 9 are in 3d4h index 7 bits 0 and 5. 1 Vertical Display Enable End bit 10. Bit 10 of the Vertical Display End register (3d4h index 12h). Bits 8 and 9 are in 3d4h index 7 bits 1 and 6 2 Vertical Blank Start bit 10. Bit 10 of the Vertical Blank Start register (3d4h index 15h). Bit 8 is in 3d4h index 7 bit 3 and bit 9 in 3d4h index 9 bit 5 3 Vertical Retrace Start bit 10. Bit 10 of the Vertical Retrace Start register (3d4h index 10h). Bits 8 and 9 are in 3d4h index 7 bits 2 and 7 4 Line Compare bit 10. Bit 10 of the Line Compare register (3d4h index 18h). Bit 8 is in 3d4h index 7 bit 4 and bit 9 in 3d4h index 9 bit 6 5-6 Vertical Blank End bits 8-9. Bits 8-9 of the Vertical Blank End register (3d4h index 16h). 7 Vertical Retrace End bit 4. Bit 4 of the Vertical Retrace End register. Bits 0-3 are in 3d4h index 11h bits 0-3. 3d4h index 34h (R/W): Monitor Power Management (32 only) bit 0 Set HSync low 1 Set HSync high 2 Set VSync low 3 Set VSync high The Memory Mapped Registers (Accelerator Control Menu - ACM) can only be accessed when 3C4h index 30h bit 0 is set. The base address of the ACM registers are defined in 3C4h index 31h-33h. Memory 00h W(R/W): Primary Offset (32 only) bit 0-15 If 3C4h index 30h bit 2 is set this is the Primary Host Offset register (3C4h index 18h-19h) Memory 04h W(R/W): Secondary Offset (32 only) bit 0-15 If 3C4h index 30h bit 2 is set this is the Primary Host Offset register (3C4h index 1Ch-1Dh) Memory 09h (R/W): Mode Control Register (32 only) bit 0-1 DRAM Address Configuration. These bits can only be modified if 3C4h index 5 bit 2 is set. 0: 64Kx, 1: 256Kx, 3: 1Mx 2 Secondary Offset Enable. If this bit and bit 4 are set all read operations are modified by multiplying the Secondary Host Offset by 16 and adding the result to the host address. 4 Extended Memory Enable. If set extended memory is enabled. 5-7 Primary/Secondary Read/Write Select. 0: Write to Primary, Read from Secondary 1: Write to Primary, Read toggles from Secondary to Primary ? 2: Primary at A0000h-AFFFFh, Secondary at B0000h-BFFFFh. Both Read/Write 3: Read and Write to Secondary only Note: This is the Extended Memory Enable register (3C4h index 1Eh). Memory 0Ch W(R/W): Cursor X Position Register (32 only) bit 0-10 If 3C4h index 30h bit 1 is set this is the Cursor X Position registers (3C4h index 0Dh and 0Eh) Memory 0Eh W(R/W): Cursor Y Position Register (32 only) bit 0-11 If 3C4h index 30h bit 1 is set this is the Cursor Y Position registers (3C4h index 0Fh and 10h) Memory 30h (R/W): BLT Start Register (32 only) bit 0 Start/Stop. Set to start a BLT operation, clear to stop the current operation 1 Text BLT. Set for Text Mode BLTs, clear for standard BLTs 2 BLT Completed Interrupt. If set causes an interrupt when the Accelerator engine has completed an operation. The interrupt is cleared when a 0 is written to this bit. 3 Write FIFO Empty Interrupt. If set enables an interrupt when the Write FIFO goes empty Memory 32h (R): BLT Status Register (32 only) bit 0 Ready. If clear the engine is busy, if set the operation has finished and the parameters can be updated. 1 Error. If set indicates that an illegal BLT operation was entered. This bit is cleared when a new operation is started. 2 BLT Done Interrupt Status. Set when an interrupt has been generated due to a BLT Done condition. 3 Write FIFO Near Empty Interrupt. Set if an interrupt has been generated due to a Write FIFO Near Empty condition. 4 Write FIFO Full. Set when the Write FIFO is full Memory 34h W(R/W): BLT Control Register (32 only) bit 1 Color Compare Invert. If clear color match operations return 1 for the pixels which match the reference color and 0 for those that don't, if set this is reversed. 3 Map Width. If set the data transferred when either the Source or Destination data is in system memory is padded or truncated to achieve word aligned data. 4 Large Pattern Enable. If clear 8x8 pixel patterns are used, if set 16x16 patterns are used for 256 color modes. 5 Transparency Enable. If set enables background transparency for color expand operations. 6 Vertical Direction. The Blit direction is "down" (increasing Y) if set, "up" (decreasing Y) if clear 7 Horizontal Direction. The Blit direction is "left" (increasing X) if set, "right" (decreasing X) if clear. 9 Color Fill Enable. If set the operation is a solid fill and only one pixel of the pattern data need be read. 10 Color Compare Enabled if set 11 Color Expand Enable. If set the source data is monochrome and is replaced with fore/background data in the full color depth 12 Destination Address Mode. If set the source data is stored in linear format, if clear it is stored in rectangular format. 13 Source Address Mode. If set the destination data is stored in linear format, if clear it is stored in rectangular format. 14 Destination Location. If set the Destination is in the frame buffer, if clear the destination data is transferred to the system memory via the ?read? FIFO. 15 Source Location. If set the Source data comes from the frame buffer, if clear the system supplies the Source data Memory 38h (R/W): Pattern X Rotation (32 only) bit 0-3 The Horizontal Pixel alignment of the pattern Memory 39h (R/W): Pattern Y Rotation (32 only) bit 0-3 The Vertical Pixel alignment of the pattern Memory 3Ah (R/W): Raster Opcode (32 only) bit 0-7 The raster opcode. See MS-Windows trinary raster codes for the full list. CCh is copy source -> Destination Memory 3Ch W(R/W): Bitmap Dimension Width (32 only) bit 0-11 Bitmap Width. The width of the Source and Destination bitmaps in pixels Memory 3Eh W(R/W): Bitmap Dimension Height (32 only) bit 0-11 Bitmap Height. The height of the Source and Destination bitmaps in pixels. For Text BLTs this is the character cell height Memory 40h D(R/W): Destination Register (32 only) bit 0-2 Bit position for monochome bitmaps. For Color Compare to Memory BLTs this field specifies the initial bit alignment of the Destination bitmap 3-24 Destination Address. This is the address of the starting corner of the Destination Bitmap Memory 44 D(R/W): Source Register (32 only) bit 0-2 Bit position for monochome bitmaps. For Color Expand BLTs this field specifies the initial bit alignment of the Source bitmap 3-24 Source Address. This is the address of the starting corner of the Destination Bitmap Memory 48h D(R/W): Pattern Register (32 only) bit 0-2 Bit offset, must be 0 3-24 Pattern Address. This is the address of the starting corner of the Pattern. The address must be DWORD aligned. Memory 4Ch D(R/W): Foreground Color Register (32 only) bit 0-23 The foreground color Memory 50h D(R/W): Background Color Register (32 only) bit 0-23 The Background Color. ID NCR VGA: if testinx2($3C4,5,5) then begin wrinx($3C4,5,0); {Lock extensions} if not testinx($3C4,$10) then begin wrinx($3C4,5,1); if testinx($3C4,$10) then case rdinx($3C4,8) div 16 of 0:NCR 77C22; 1:NCR 77C21; 2:if (rdinx($3C4,8) and 15)<8 then NCR 77C22E else NCR 77C22E+; 3:NCR 77c32BLT; end; end; end; Video Modes: 40h G 1600 1200 16 PL4 32BLT 41h G 1600 1200 256 P8 32BLT 50h G 640 480 16m P24 32BLT 51h G 800 600 16m P24 32BLT 54h T 132 50 16 (8x8) 55h T 132 25 16 (8x16) 56h T 132 50 4 (8x8) 57h T 132 25 4 (8x16) 58h G 800 600 16 PL4 59h G 800 600 2 5Ah G 1024 768 2 5Bh G 1024 768 16 PL4 (Interlaced) 5Ch G 800 600 256 P8 5Dh G 1024 768 16 PL4 5Eh G 640 400 256 P8 5Fh G 640 480 256 P8 61h G 1024 768 256 P8 (Interlaced) 22E !! 62h G 1024 768 256 P8 22E !! 67h G 1280 1024 16 PL4 (Interlaced) 22E !! 6Ah G 1280 1024 256 P8 (Interlaced) 22E !! 6Bh G 1280 960 256 P8 22E !! 6Ch G 1280 1024 16 PL4 32BLT 70h G 640 480 32k P15 22E !! 71h G 800 600 32k P15 22E 72h G 1024 768 32k P15 32BLT 78h G 640 480 64k P16 22E 79h G 800 600 64k P16 22E 7Ah G 1024 768 64k P16 32BLT Note: Modes above 57h may require a driver (setmode.sys) to be loaded depending on BIOS version.