127 lines
2.9 KiB
Plaintext
127 lines
2.9 KiB
Plaintext
# This is an ide startup file.
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report=1
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# THE FOLLOWING IS THE STARTUP SCRIPT FOR THE GRAPHICS DIAGNOSTICS.
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gr1 {
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buffon
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initgr
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$failed=0
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# Microcode RAM address uniqueness test
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if (urama) $failed=1
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# Microcode RAM walking-bit test
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#if (uramd) $failed=1
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# Data RAM address uniqueness test (from host)
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if (drama) $failed=1
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# Data RAM walking-bit test
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#if (dramd) $failed=1
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# FIFO test
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if (fifo) $failed=1
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# Download the diagnostic microcode
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ge5load
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# Data RAM address uniqueness test (implemented in microcode)
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if (drama2) $failed=1
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# Download the diagnostic microcode
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ge5load
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# CPU to GE5 and GE5 to CPU DMA test
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if (gedma) $failed=1
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# Test of the XMAPs
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if (xmap) $failed=1
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# Test of the DACs
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if (dac) $failed=1
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# Initialize graphics board (to prepare for displaying)
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initgr
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# Raster Engine test
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if (re) $failed=1
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# Test GRF chip functionality
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if (gefifo) $failed=1
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if (finflgs) $failed=1
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if (redma) $failed=1
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initgr
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$bpfailed=0
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# Test of the bitplane expansion board.
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$bpfailed= bitp b
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$zfailed=0
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# Test of the z-buffer board.
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$zfailed= bitp z
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resetcons
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buffoff
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if ($failed) echo "ERROR: Failure detected on GRAPHICS board."
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else echo "Graphics board tests passed."
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fi
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if ($bpfailed) echo "ERROR: Failure detected on BITPLANE board."
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else echo "Bitplane board tests passed."
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fi
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if ($zfailed) echo "ERROR: Failure detected on Z-BUFFER board."
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else echo "Z-buffer board tests passed."
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fi
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}
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# THE FOLLOWING IS THE STARTUP SCRIPT FOR THE CPU DIAGNOSTICS.
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#
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# IN ORDER FOR THE SCRIPT TO RUN PROPERLY, THE FOLLOWING MUST BE DONE:
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# 1. CONNECT THE TRANSMIT AND RECEIVE PINS ON CHANNEL A AND B OF DUART 0,
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# CHANNEL B OF DUART 1 (FOR CHANNEL B OF DUART 1, THE REQUEST_TO_SEND
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# AND CLEAR_TO_SEND PINS MUST ALSO BE CONNECTED).
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# 2. CONNECT A MICROPHONE AND A SPEAKER TO THE AUDIO CIRCUITRY.
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# 3. CONNECT A ETHERNET CABLE TO THE ONBOARD ETHERNET CONNECTOR, THE CABLE
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# MUST BE CONNECTED TO A TRANSCEIVER.
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ip22 {
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# Interrupt mask registers data test.
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int2
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# TLB test. Verify different tlb functions.
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tlb
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# UTLB miss exception test. Verify the exception generating capability of the
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# mips chip during a utlb miss.
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utlb
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# Real time clock test. Verify the accuracy of the real time clock and the carry
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# circuitry by using the timer within the ctl1 gate array.
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clock
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# Interval timer test. Verify the accuracy of the interval timer by using the
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# real time clock.
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timer
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# DUART 0A/keyboard, 0B/mouse, 1B/modem, internal loopback test. Execute the
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# internal loopback diagnostics provided by the DUART chips.
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duart -i1
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# EEPROM pin signal test. Verify the pin signals provided for the EEPROM.
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nvram5
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# EEPROM address test. Verify the addressing mechanism within the EEPROM.
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nvram1
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# EEPROM data test. Verify the data RAM within the EEPROM.
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nvram3
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# EEPROM checksum test. Verify the data retention capability of the EEPROM.
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nvram2
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# HPC1 peripheral controller register data test.
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hpc3
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}
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