URL
https://opencores.org/ocsvn/light8080/light8080/trunk
Subversion Repositories light8080
Compare Revisions
- This comparison shows the changes necessary to convert path
/
- from Rev 63 to Rev 64
- ↔ Reverse comparison
Rev 63 → Rev 64
/light8080/trunk/ucode/light8080.m80
1,5 → 1,5
//////////////////////////////////////////////////////////////////////////////// |
// LIGHT8080 CORE MICROCODE (V.1 November 1st 2007) |
// LIGHT8080 CORE MICROCODE (V.2 February 12th 2012) |
//////////////////////////////////////////////////////////////////////////////// |
// NOTE: Except for bug fixing, there's no need to tinker with the microcode. |
// Once the microcode table has been generated, this file is is not needed to |
61,7 → 61,11
// #halt : Jump to microcode address 0x07 without saving return value. |
// |
//////////////////////////////////////////////////////////////////////////////// |
// V.1 November 1st 2007 -- Original version |
// V.2 February 12th 2012 -- Fixed CY/AC clear bug with clr_acy flag |
//////////////////////////////////////////////////////////////////////////////// |
|
|
// RESET ucode: from 0 to 2, but uinst at address 0 is never executed |
__reset |
|
233,13 → 237,13
__asm ANI #imm |
|
JSR read_imm |
T2 = _a ; _a = AND ; #end, #fp_rc |
T2 = _a ; _a = AND ; #end, #fp_rc, #clr_acy |
|
__code "11101110" |
__asm XRI #imm |
|
JSR read_imm |
T2 = _a ; _a = XRL ; #end, #fp_rc |
T2 = _a ; _a = XRL ; #end, #fp_rc, #clr_acy |
|
|
__code "11110110" |
246,7 → 250,7
__asm ORI #imm |
|
JSR read_imm |
T2 = _a ; _a = ORL ; #end, #fp_rc |
T2 = _a ; _a = ORL ; #end, #fp_rc, #clr_acy |
|
|
__code "11111110" |
285,19 → 289,19
__asm ANA {s} |
|
T1 = {s} ; NOP |
T2 = _a ; _a = AND ; #end, #fp_rc |
T2 = _a ; _a = AND ; #end, #fp_rc, #clr_acy |
|
__code "10101sss" |
__asm XRA {s} |
|
T1 = {s} ; NOP |
T2 = _a ; _a = XRL ; #end, #fp_rc |
T2 = _a ; _a = XRL ; #end, #fp_rc, #clr_acy |
|
__code "10110sss" |
__asm ORA {s} |
|
T1 = {s} ; NOP |
T2 = _a ; _a = ORL ; #end, #fp_rc |
T2 = _a ; _a = ORL ; #end, #fp_rc, #clr_acy |
|
__code "10111sss" |
__asm CMP {s} |
334,19 → 338,19
__asm ANA M |
|
JSR read_m |
T2 = _a ; _a = AND ; #end, #fp_rc |
T2 = _a ; _a = AND ; #end, #fp_rc, #clr_acy |
|
__code "10101110" |
__asm XRA M |
|
JSR read_m |
T2 = _a ; _a = XRL ; #end, #fp_rc |
T2 = _a ; _a = XRL ; #end, #fp_rc, #clr_acy |
|
__code "10110110" |
__asm ORA M |
|
JSR read_m |
T2 = _a ; _a = ORL ; #end, #fp_rc |
T2 = _a ; _a = ORL ; #end, #fp_rc, #clr_acy |
|
|
__code "10111110" |
/light8080/trunk/asm/tb0.asm
21,7 → 21,7
; Modified 2006/11/16 by Scott Moore to work on CPU8080 FPGA core |
; |
;*********************************************************************** |
; Modified 2007/09/24 by Jose Ruiz for use in free8080 FPGA core |
; Modified 2007/09/24 by Jose Ruiz for use in light8080 FPGA core |
; |
; 1.- Changed formatting for compatibility to CP/M's ASM |
; 2.- Commented out all Altair / MITS hardware related stuff |
28,6 → 28,9
; 3.- Set origin at 0H |
; |
; Modified again in 2008 to make it compatible with TASM assembler. |
; |
; Modified 2012/02/12 to add a few CY checks. |
; Flags go almost completely unchecked in this test. |
;*********************************************************************** |
|
; DS pseudo-directive; reserve space in bytes, without initializing it |
200,14 → 203,20
jz anii ;test "sbi" |
call cpuer |
anii: ani 055H ;a=f0h<and>55h=50h,c=0,p=1,s=0,z=0 |
cc cpuer |
cz cpuer |
cpi 050H |
jz orii ;test "ani" |
call cpuer |
orii: ori 03aH ;a=50h<or>3ah=7ah,c=0,p=0,s=0,z=0 |
cc cpuer |
cz cpuer |
cpi 07aH |
jz xrii ;test "ori" |
call cpuer |
xrii: xri 00fH ;a=7ah<xor>0fh=75h,c=0,p=0,s=0,z=0 |
cc cpuer |
cz cpuer |
cpi 075H |
jz c010 ;test "xri" |
call cpuer |
438,7 → 447,9
mvi e,07fH |
mvi h,0f4H |
mvi l,0bfH |
stc |
ana a |
cc cpuer |
ana c |
ana d |
ana e |
454,7 → 465,9
mvi e,008H |
mvi h,010H |
mvi l,020H |
stc |
ora b |
cc cpuer |
ora c |
ora d |
ora e |
466,7 → 479,9
mvi a,0H |
mvi h,08fH |
mvi l,04fH |
stc |
xra b |
cc cpuer |
xra c |
xra d |
xra e |
542,13 → 557,19
sbb m |
cpi 0cdH |
cnz cpuer ;test "sbb" m |
stc |
ana m |
cc cpuer |
cnz cpuer ;test "ana" m |
mvi a,025H |
stc |
ora m |
cc cpuer |
cpi 37H |
cnz cpuer ;test "ora" m |
stc |
xra m |
cc cpuer |
cpi 005H |
cnz cpuer ;test "xra" m |
mvi m,055H |
/light8080/trunk/doc/designNotes.tex
246,7 → 246,7
t1\textbar rst\textbar daa\textbar cpc\textbar sec\textbar psw |
\textless flag list \textgreater := \textless flag \textgreater [, \textless flag \textgreater ...] |
\textless flag \textgreater := \#decode\textbar\#di\textbar\#ei\textbar\#io\textbar\#auxcy\textbar\#clrt1\textbar\#halt\textbar\#end\textbar\#ret\textbar\#rd\textbar\#wr\textbar\#setacy |
\#ld\_al\textbar\#ld\_addr\textbar\#fp\_c\textbar\#fp\_r\textbar\#fp\_rc \footnote{There are some restrictions on the flags that can be used together} \\ |
\#ld\_al\textbar\#ld\_addr\textbar\#fp\_c\textbar\#fp\_r\textbar\#fp\_rc\textbar\#clr\_acy \footnote{There are some restrictions on the flags that can be used together} \\ |
\end{alltt} |
|
|
347,7 → 347,7
21 & mux\_in & T1/T2 source mux control (0 for DI, 1 for reg bank) \\ \hline |
20..19 & rb\_addr\_sel & Register bank address source control (note 2) \\ \hline |
18..15 & ra\_field & Register bank address (used both for write and read) \\ \hline |
14 & (unused) & Reserved \\ \hline |
14 & clr\_acy & Clear CY and AC -- see explaination below (pipelined signal) \\ \hline |
13..10 & (unused) & Reserved for write register bank address, unused yet \\ \hline |
11..10 & uc\_jmp\_addr(7..6) & JSR/TJSR jump address, higher 2 bits \\ \hline |
9..8 & flag\_pattern & PSW flag update control (note 3) (pipelined signal) \\ \hline |
441,6 → 441,10
\item \#ld\_addr : Load address register (H byte = register bank output as read |
by operation 1, L byte = AL). |
Activate vma signal for 1st cycle. |
\item \#clr\_acy : Clear PSW flags AC and CY, except for AND instructions |
(ALU operation = 000100), where AC is set. |
Meant to be used with flag \#fp\_rc for the logic instructions (AND, OR, XOR). |
See \ref{compatibility} for a note about compatibility to the original 8080. |
\end{itemize} |
|
\item PSW update flags: use only one of these |
591,6 → 595,22
|
\end{tabular} |
|
\clearpage |
|
\subsection{Binary compatibility to original 8080} |
\label{compatibility} |
|
Flag AC (auxiliary carry) does not work exactly as in the original 8080. In the |
original 8080, ANI and ANA don't clear AC but set it to the OR'ing of |
bits 3 of the ALU operands. |
|
In this core, these two instructions instead set the AC flag to 1. In this, the |
core is compatible to the 8085 ad not to the 8080. |
|
That is the only difference to the original 8080 that I am aware of. |
Unfortunately, the only test bench that I have available right now is not |
exhaustive enough to pick that kind of detail. Until I develop a stronger test |
bench, full compatibility to the 8080 can't be guaranteed. |
|
\end{document} |
|
/light8080/trunk/doc/designNotes.pdf
Cannot display: file marked as a binary type.
svn:mime-type = application/octet-stream
/light8080/trunk/util/uasm.pl
41,7 → 41,7
# t1|rst|daa|cpc|sec|psw |
#<flag list> := <flag> [, <flag> ...] |
#<flag> := #decode|#di|#ei|#io|#auxcy|#clrt1|#halt|#end|#ret|#rd|#wr|#setacy |
# #ld_al|#ld_addr|#fp_c|#fp_r|#fp_rc (*2) |
# #ld_al|#ld_addr|#fp_c|#fp_r|#fp_rc|#clr_cy_ac (*2) |
# |
# *1 Labels appear alone by themselves in a line |
# *2 There are some restrictions on the flags that can be used together |
93,6 → 93,7
# #ld_addr : Load address register (H byte = register bank output as read by |
# operation 1, L byte = AL). |
# Activate vma signal for 1st cycle. |
# #clr_acy : Instruction clears CY and AC flags. Use with #fp_rc. |
# --- PSW update flags: use only one of these |
# #fp_r : This instruction updates all PSW flags except for C. |
# #fp_c : This instruction updates only the C flag in the PSW. |
566,7 → 567,9
if($uinst->{flags} =~ /#fp_rc/){ |
substr($uinst->{field1},22,2) = '11'; |
} |
|
if($uinst->{flags} =~ /#clr_acy/){ |
substr($uinst->{field1},17,1) = '1'; |
} |
|
} |
|
661,6 → 664,9
if($flag_str =~ /#fp_rc/){ |
$uinst->{flags} = $uinst->{flags}." #fp_rc"; |
} |
if($flag_str =~ /#clr_acy/){ |
$uinst->{flags} = $uinst->{flags}." #clr_acy"; |
} |
|
if($error ne ''){ |
$num_errors++; |
/light8080/trunk/vhdl/test/light8080_tb0.vhdl
1,521 → 1,549
-------------------------------------------------------------------------------- |
-- Generated from template tb_template.vhdl by hexconv.pl |
-------------------------------------------------------------------------------- |
-- Light8080 simulation test bench. |
-------------------------------------------------------------------------------- |
-- Source for the 8080 program is in asm\tb0.asm |
-------------------------------------------------------------------------------- |
-- |
-- This test bench provides a simulated CPU system to test programs. This test |
-- bench does not do any assertions or checks, all assertions are left to the |
-- software. |
-- |
-- The simulated environment has 2KB of RAM, mirror-mapped to all the memory |
-- map of the 8080, initialized with the test program object code. See the perl |
-- script 'util\hexconv.pl' and BAT files in the asm directory. |
-- |
-- Besides, it provides some means to trigger hardware irq from software, |
-- including the specification of the instructions fed to the CPU as interrupt |
-- vectors during inta cycles. |
-- |
-- We will simulate 8 possible irq sources. The software can trigger any one of |
-- them by writing at registers 0x010 and 0x011. Register 0x010 holds the irq |
-- source to be triggered (0 to 7) and register 0x011 holds the number of clock |
-- cycles that will elapse from the end of the instruction that writes to the |
-- register to the assertion of intr. |
-- |
-- When the interrupt is acknowledged and inta is asserted, the test bench reads |
-- the value at register 0x010 as the irq source, and feeds an instruction to |
-- the CPU starting from the RAM address 0040h+source*4. |
-- That is, address range 0040h-005fh is reserved for the simulated 'interrupt |
-- vectors', a total of 4 bytes for each of the 8 sources. This allows the |
-- software to easily test different interrupt vectors without any hand |
-- assembly. All of this is strictly simulation-only stuff. |
-- |
-- |
-- Upon completion, the software must write a value to register 0x020. Writing |
-- a 0x055 means 'success', writing a 0x0aa means 'failure'. Success and |
-- failure conditions are defined by the software. |
-------------------------------------------------------------------------------- |
|
library ieee; |
use ieee.std_logic_1164.ALL; |
use ieee.std_logic_unsigned.all; |
use ieee.numeric_std.ALL; |
|
entity light8080_tb0 is |
end entity light8080_tb0; |
|
architecture behavior of light8080_tb0 is |
|
-------------------------------------------------------------------------------- |
-- Simulation parameters |
|
-- T: simulated clock period |
constant T : time := 100 ns; |
|
-- MAX_SIM_LENGTH: maximum simulation time |
constant MAX_SIM_LENGTH : time := T*7000; -- enough for the tb0 |
|
|
-------------------------------------------------------------------------------- |
|
-- Component Declaration for the Unit Under Test (UUT) |
component light8080 |
port ( |
addr_out : out std_logic_vector(15 downto 0); |
|
inta : out std_logic; |
inte : out std_logic; |
halt : out std_logic; |
intr : in std_logic; |
|
vma : out std_logic; |
io : out std_logic; |
rd : out std_logic; |
wr : out std_logic; |
fetch : out std_logic; |
data_in : in std_logic_vector(7 downto 0); |
data_out : out std_logic_vector(7 downto 0); |
|
clk : in std_logic; |
reset : in std_logic ); |
end component; |
|
|
signal data_i : std_logic_vector(7 downto 0) := (others=>'0'); |
signal vma_o : std_logic; |
signal rd_o : std_logic; |
signal wr_o : std_logic; |
signal io_o : std_logic; |
signal data_o : std_logic_vector(7 downto 0); |
signal data_mem : std_logic_vector(7 downto 0); |
signal addr_o : std_logic_vector(15 downto 0); |
signal fetch_o : std_logic; |
signal inta_o : std_logic; |
signal inte_o : std_logic; |
signal intr_i : std_logic := '0'; |
signal halt_o : std_logic; |
|
signal reset : std_logic := '0'; |
signal clk : std_logic := '1'; |
signal done : std_logic := '0'; |
|
type t_rom is array(0 to 2047) of std_logic_vector(7 downto 0); |
|
signal rom : t_rom := ( |
|
X"31",X"f3",X"05",X"3e",X"77",X"e6",X"00",X"ca", |
X"0d",X"00",X"cd",X"e0",X"04",X"d2",X"13",X"00", |
X"cd",X"e0",X"04",X"ea",X"19",X"00",X"cd",X"e0", |
X"04",X"f2",X"1f",X"00",X"cd",X"e0",X"04",X"c2", |
X"2e",X"00",X"da",X"2e",X"00",X"e2",X"2e",X"00", |
X"fa",X"2e",X"00",X"c3",X"31",X"00",X"cd",X"e0", |
X"04",X"c6",X"06",X"c2",X"39",X"00",X"cd",X"e0", |
X"04",X"da",X"42",X"00",X"e2",X"42",X"00",X"f2", |
X"45",X"00",X"cd",X"e0",X"04",X"c6",X"70",X"e2", |
X"4d",X"00",X"cd",X"e0",X"04",X"fa",X"56",X"00", |
X"ca",X"56",X"00",X"d2",X"59",X"00",X"cd",X"e0", |
X"04",X"c6",X"81",X"fa",X"61",X"00",X"cd",X"e0", |
X"04",X"ca",X"6a",X"00",X"da",X"6a",X"00",X"e2", |
X"6d",X"00",X"cd",X"e0",X"04",X"c6",X"fe",X"da", |
X"75",X"00",X"cd",X"e0",X"04",X"ca",X"7e",X"00", |
X"e2",X"7e",X"00",X"fa",X"81",X"00",X"cd",X"e0", |
X"04",X"fe",X"00",X"da",X"99",X"00",X"ca",X"99", |
X"00",X"fe",X"f5",X"da",X"99",X"00",X"c2",X"99", |
X"00",X"fe",X"ff",X"ca",X"99",X"00",X"da",X"9c", |
X"00",X"cd",X"e0",X"04",X"ce",X"0a",X"ce",X"0a", |
X"fe",X"0b",X"ca",X"a8",X"00",X"cd",X"e0",X"04", |
X"d6",X"0c",X"d6",X"0f",X"fe",X"f0",X"ca",X"b4", |
X"00",X"cd",X"e0",X"04",X"de",X"f1",X"de",X"0e", |
X"fe",X"f0",X"ca",X"c0",X"00",X"cd",X"e0",X"04", |
X"e6",X"55",X"fe",X"50",X"ca",X"ca",X"00",X"cd", |
X"e0",X"04",X"f6",X"3a",X"fe",X"7a",X"ca",X"d4", |
X"00",X"cd",X"e0",X"04",X"ee",X"0f",X"fe",X"75", |
X"ca",X"de",X"00",X"cd",X"e0",X"04",X"e6",X"00", |
X"dc",X"e0",X"04",X"e4",X"e0",X"04",X"fc",X"e0", |
X"04",X"c4",X"e0",X"04",X"fe",X"00",X"ca",X"f4", |
X"00",X"cd",X"e0",X"04",X"d6",X"77",X"d4",X"e0", |
X"04",X"ec",X"e0",X"04",X"f4",X"e0",X"04",X"cc", |
X"e0",X"04",X"fe",X"89",X"ca",X"0a",X"01",X"cd", |
X"e0",X"04",X"e6",X"ff",X"e4",X"17",X"01",X"fe", |
X"d9",X"ca",X"74",X"01",X"cd",X"e0",X"04",X"e8", |
X"c6",X"10",X"ec",X"23",X"01",X"c6",X"02",X"e0", |
X"cd",X"e0",X"04",X"e0",X"c6",X"20",X"fc",X"2f", |
X"01",X"c6",X"04",X"e8",X"cd",X"e0",X"04",X"f0", |
X"c6",X"80",X"f4",X"3b",X"01",X"c6",X"80",X"f8", |
X"cd",X"e0",X"04",X"f8",X"c6",X"40",X"d4",X"47", |
X"01",X"c6",X"40",X"f0",X"cd",X"e0",X"04",X"d8", |
X"c6",X"8f",X"dc",X"53",X"01",X"d6",X"02",X"d0", |
X"cd",X"e0",X"04",X"d0",X"c6",X"f7",X"c4",X"5f", |
X"01",X"c6",X"fe",X"d8",X"cd",X"e0",X"04",X"c8", |
X"c6",X"01",X"cc",X"6b",X"01",X"c6",X"d0",X"c0", |
X"cd",X"e0",X"04",X"c0",X"c6",X"47",X"fe",X"47", |
X"c8",X"cd",X"e0",X"04",X"3e",X"77",X"3c",X"47", |
X"04",X"48",X"0d",X"51",X"5a",X"63",X"6c",X"7d", |
X"3d",X"4f",X"59",X"6b",X"45",X"50",X"62",X"7c", |
X"57",X"14",X"6a",X"4d",X"0c",X"61",X"44",X"05", |
X"58",X"7b",X"5f",X"1c",X"43",X"60",X"24",X"4c", |
X"69",X"55",X"15",X"7a",X"67",X"25",X"54",X"42", |
X"68",X"2c",X"5d",X"1d",X"4b",X"79",X"6f",X"2d", |
X"65",X"5c",X"53",X"4a",X"41",X"78",X"fe",X"77", |
X"c4",X"e0",X"04",X"af",X"06",X"01",X"0e",X"03", |
X"16",X"07",X"1e",X"0f",X"26",X"1f",X"2e",X"3f", |
X"80",X"81",X"82",X"83",X"84",X"85",X"87",X"fe", |
X"f0",X"c4",X"e0",X"04",X"90",X"91",X"92",X"93", |
X"94",X"95",X"fe",X"78",X"c4",X"e0",X"04",X"97", |
X"c4",X"e0",X"04",X"3e",X"80",X"87",X"06",X"01", |
X"0e",X"02",X"16",X"03",X"1e",X"04",X"26",X"05", |
X"2e",X"06",X"88",X"06",X"80",X"80",X"80",X"89", |
X"80",X"80",X"8a",X"80",X"80",X"8b",X"80",X"80", |
X"8c",X"80",X"80",X"8d",X"80",X"80",X"8f",X"fe", |
X"37",X"c4",X"e0",X"04",X"3e",X"80",X"87",X"06", |
X"01",X"98",X"06",X"ff",X"80",X"99",X"80",X"9a", |
X"80",X"9b",X"80",X"9c",X"80",X"9d",X"fe",X"e0", |
X"c4",X"e0",X"04",X"3e",X"80",X"87",X"9f",X"fe", |
X"ff",X"c4",X"e0",X"04",X"3e",X"ff",X"06",X"fe", |
X"0e",X"fc",X"16",X"ef",X"1e",X"7f",X"26",X"f4", |
X"2e",X"bf",X"a7",X"a1",X"a2",X"a3",X"a4",X"a5", |
X"a7",X"fe",X"24",X"c4",X"e0",X"04",X"af",X"06", |
X"01",X"0e",X"02",X"16",X"04",X"1e",X"08",X"26", |
X"10",X"2e",X"20",X"b0",X"b1",X"b2",X"b3",X"b4", |
X"b5",X"b7",X"fe",X"3f",X"c4",X"e0",X"04",X"3e", |
X"00",X"26",X"8f",X"2e",X"4f",X"a8",X"a9",X"aa", |
X"ab",X"ac",X"ad",X"fe",X"cf",X"c4",X"e0",X"04", |
X"af",X"c4",X"e0",X"04",X"06",X"44",X"0e",X"45", |
X"16",X"46",X"1e",X"47",X"26",X"04",X"2e",X"ec", |
X"70",X"06",X"00",X"46",X"3e",X"44",X"b8",X"c4", |
X"e0",X"04",X"72",X"16",X"00",X"56",X"3e",X"46", |
X"ba",X"c4",X"e0",X"04",X"73",X"1e",X"00",X"5e", |
X"3e",X"47",X"bb",X"c4",X"e0",X"04",X"74",X"26", |
X"04",X"2e",X"ec",X"66",X"3e",X"04",X"bc",X"c4", |
X"e0",X"04",X"75",X"26",X"04",X"2e",X"ec",X"6e", |
X"3e",X"ec",X"bd",X"c4",X"e0",X"04",X"26",X"04", |
X"2e",X"ec",X"3e",X"32",X"77",X"be",X"c4",X"e0", |
X"04",X"86",X"fe",X"64",X"c4",X"e0",X"04",X"af", |
X"7e",X"fe",X"32",X"c4",X"e0",X"04",X"26",X"04", |
X"2e",X"ec",X"7e",X"96",X"c4",X"e0",X"04",X"3e", |
X"80",X"87",X"8e",X"fe",X"33",X"c4",X"e0",X"04", |
X"3e",X"80",X"87",X"9e",X"fe",X"cd",X"c4",X"e0", |
X"04",X"a6",X"c4",X"e0",X"04",X"3e",X"25",X"b6", |
X"fe",X"37",X"c4",X"e0",X"04",X"ae",X"fe",X"05", |
X"c4",X"e0",X"04",X"36",X"55",X"34",X"35",X"86", |
X"fe",X"5a",X"c4",X"e0",X"04",X"01",X"ff",X"12", |
X"11",X"ff",X"12",X"21",X"ff",X"12",X"03",X"13", |
X"23",X"3e",X"13",X"b8",X"c4",X"e0",X"04",X"ba", |
X"c4",X"e0",X"04",X"bc",X"c4",X"e0",X"04",X"3e", |
X"00",X"b9",X"c4",X"e0",X"04",X"bb",X"c4",X"e0", |
X"04",X"bd",X"c4",X"e0",X"04",X"0b",X"1b",X"2b", |
X"3e",X"12",X"b8",X"c4",X"e0",X"04",X"ba",X"c4", |
X"e0",X"04",X"bc",X"c4",X"e0",X"04",X"3e",X"ff", |
X"b9",X"c4",X"e0",X"04",X"bb",X"c4",X"e0",X"04", |
X"bd",X"c4",X"e0",X"04",X"32",X"ec",X"04",X"af", |
X"3a",X"ec",X"04",X"fe",X"ff",X"c4",X"e0",X"04", |
X"2a",X"ea",X"04",X"22",X"ec",X"04",X"3a",X"ea", |
X"04",X"47",X"3a",X"ec",X"04",X"b8",X"c4",X"e0", |
X"04",X"3a",X"eb",X"04",X"47",X"3a",X"ed",X"04", |
X"b8",X"c4",X"e0",X"04",X"3e",X"aa",X"32",X"ec", |
X"04",X"44",X"4d",X"af",X"0a",X"fe",X"aa",X"c4", |
X"e0",X"04",X"3c",X"02",X"3a",X"ec",X"04",X"fe", |
X"ab",X"c4",X"e0",X"04",X"3e",X"77",X"32",X"ec", |
X"04",X"2a",X"ea",X"04",X"11",X"00",X"00",X"eb", |
X"af",X"1a",X"fe",X"77",X"c4",X"e0",X"04",X"af", |
X"84",X"85",X"c4",X"e0",X"04",X"3e",X"cc",X"12", |
X"3a",X"ec",X"04",X"fe",X"cc",X"12",X"3a",X"ec", |
X"04",X"fe",X"cc",X"c4",X"e0",X"04",X"21",X"77", |
X"77",X"29",X"3e",X"ee",X"bc",X"c4",X"e0",X"04", |
X"bd",X"c4",X"e0",X"04",X"21",X"55",X"55",X"01", |
X"ff",X"ff",X"09",X"3e",X"55",X"d4",X"e0",X"04", |
X"bc",X"c4",X"e0",X"04",X"3e",X"54",X"bd",X"c4", |
X"e0",X"04",X"21",X"aa",X"aa",X"11",X"33",X"33", |
X"19",X"3e",X"dd",X"bc",X"c4",X"e0",X"04",X"bd", |
X"c4",X"e0",X"04",X"37",X"d4",X"e0",X"04",X"3f", |
X"dc",X"e0",X"04",X"3e",X"aa",X"2f",X"fe",X"55", |
X"c4",X"e0",X"04",X"b7",X"27",X"fe",X"55",X"c4", |
X"e0",X"04",X"3e",X"88",X"87",X"27",X"fe",X"76", |
X"c4",X"e0",X"04",X"af",X"3e",X"aa",X"27",X"d4", |
X"e0",X"04",X"fe",X"10",X"c4",X"e0",X"04",X"af", |
X"3e",X"9a",X"27",X"d4",X"e0",X"04",X"c4",X"e0", |
X"04",X"37",X"3e",X"42",X"07",X"dc",X"e0",X"04", |
X"07",X"d4",X"e0",X"04",X"fe",X"09",X"c4",X"e0", |
X"04",X"0f",X"d4",X"e0",X"04",X"0f",X"fe",X"42", |
X"c4",X"e0",X"04",X"17",X"17",X"d4",X"e0",X"04", |
X"fe",X"08",X"c4",X"e0",X"04",X"1f",X"1f",X"dc", |
X"e0",X"04",X"fe",X"02",X"c4",X"e0",X"04",X"01", |
X"34",X"12",X"11",X"aa",X"aa",X"21",X"55",X"55", |
X"af",X"c5",X"d5",X"e5",X"f5",X"01",X"00",X"00", |
X"11",X"00",X"00",X"21",X"00",X"00",X"3e",X"c0", |
X"c6",X"f0",X"f1",X"e1",X"d1",X"c1",X"dc",X"e0", |
X"04",X"c4",X"e0",X"04",X"e4",X"e0",X"04",X"fc", |
X"e0",X"04",X"3e",X"12",X"b8",X"c4",X"e0",X"04", |
X"3e",X"34",X"b9",X"c4",X"e0",X"04",X"3e",X"aa", |
X"ba",X"c4",X"e0",X"04",X"bb",X"c4",X"e0",X"04", |
X"3e",X"55",X"bc",X"c4",X"e0",X"04",X"bd",X"c4", |
X"e0",X"04",X"21",X"00",X"00",X"39",X"22",X"f1", |
X"04",X"31",X"f0",X"04",X"3b",X"3b",X"33",X"3b", |
X"3e",X"55",X"32",X"ee",X"04",X"2f",X"32",X"ef", |
X"04",X"c1",X"b8",X"c4",X"e0",X"04",X"2f",X"b9", |
X"c4",X"e0",X"04",X"21",X"f0",X"04",X"f9",X"21", |
X"33",X"77",X"3b",X"3b",X"e3",X"3a",X"ef",X"04", |
X"fe",X"77",X"c4",X"e0",X"04",X"3a",X"ee",X"04", |
X"fe",X"33",X"c4",X"e0",X"04",X"3e",X"55",X"bd", |
X"c4",X"e0",X"04",X"2f",X"bc",X"c4",X"e0",X"04", |
X"2a",X"f1",X"04",X"f9",X"21",X"e5",X"04",X"e9", |
X"3e",X"aa",X"d3",X"20",X"76",X"3e",X"55",X"d3", |
X"20",X"76",X"ec",X"04",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00" |
|
); |
|
signal irq_vector_byte: std_logic_vector(7 downto 0); |
signal irq_source : integer range 0 to 7; |
signal cycles_to_intr : integer range -10 to 255; |
signal int_vector_index : integer range 0 to 3; |
signal addr_vector_table: integer range 0 to 65535; |
|
begin |
|
-- Instantiate the Unit Under Test (UUT) |
uut: light8080 PORT MAP( |
clk => clk, |
reset => reset, |
vma => vma_o, |
rd => rd_o, |
wr => wr_o, |
io => io_o, |
fetch => fetch_o, |
addr_out => addr_o, |
data_in => data_i, |
data_out => data_o, |
|
intr => intr_i, |
inte => inte_o, |
inta => inta_o, |
halt => halt_o |
); |
|
|
-- clock: run clock until test is done |
clock: |
process(done, clk) |
begin |
if done = '0' then |
clk <= not clk after T/2; |
end if; |
end process clock; |
|
|
-- Drive reset and done |
main_test: |
process |
begin |
-- Assert reset for at least one full clk period |
reset <= '1'; |
wait until clk = '1'; |
wait for T/2; |
reset <= '0'; |
|
-- Remember to 'cut away' the preceding 3 clk semiperiods from |
-- the wait statement... |
wait for (MAX_SIM_LENGTH - T*1.5); |
|
-- Maximum sim time elapsed, assume the program ran away and |
-- stop the clk process asserting 'done' (which will stop the simulation) |
done <= '1'; |
|
assert (done = '1') |
report "Test timed out." |
severity failure; |
|
wait; |
end process main_test; |
|
|
-- Synchronous RAM; 2KB mirrored everywhere |
synchronous_ram: |
process(clk) |
begin |
if (clk'event and clk='1') then |
data_mem <= rom(conv_integer(addr_o(10 downto 0))); |
if wr_o = '1' and addr_o(15 downto 11)="00000" then |
rom(conv_integer(addr_o(10 downto 0))) <= data_o; |
end if; |
end if; |
end process synchronous_ram; |
|
|
irq_trigger_register: |
process(clk) |
begin |
if (clk'event and clk='1') then |
if reset='1' then |
cycles_to_intr <= -10; -- meaning no interrupt pending |
intr_i <= '0'; |
else |
if io_o='1' and wr_o='1' and addr_o(7 downto 0)=X"11" then |
cycles_to_intr <= conv_integer(data_o) + 1; |
else |
if cycles_to_intr >= 0 then |
cycles_to_intr <= cycles_to_intr - 1; |
end if; |
if cycles_to_intr = 0 and inta_o = '0' then |
intr_i <= '1'; |
elsif inta_o = '1' then |
intr_i <= '0'; |
end if; |
end if; |
end if; |
end if; |
end process irq_trigger_register; |
|
|
irq_source_register: |
process(clk) |
begin |
if (clk'event and clk='1') then |
if reset='1' then |
irq_source <= 0; |
else |
if io_o='1' and wr_o='1' and addr_o(7 downto 0)=X"10" then |
irq_source <= conv_integer(data_o(2 downto 0)); |
end if; |
end if; |
end if; |
end process irq_source_register; |
|
|
-- 'interrupt vector' logic. |
irq_vector_table: |
process(clk) |
begin |
if (clk'event and clk='1') then |
if vma_o = '1' and rd_o='1' then |
if inta_o = '1' then |
int_vector_index <= int_vector_index + 1; |
else |
int_vector_index <= 0; |
end if; |
end if; |
-- this is the address of the byte we'll feed to the CPU |
addr_vector_table <= 64+irq_source*4+int_vector_index; |
end if; |
end process irq_vector_table; |
irq_vector_byte <= rom(addr_vector_table); |
|
data_i <= data_mem when inta_o='0' else irq_vector_byte; |
|
|
test_outcome_register: |
process(clk) |
variable outcome : std_logic_vector(7 downto 0); |
begin |
if (clk'event and clk='1') then |
if io_o='1' and wr_o='1' and addr_o(7 downto 0)=X"20" then |
assert (data_o /= X"55") report "Software reports SUCCESS" severity failure; |
assert (data_o /= X"aa") report "Software reports FAILURE" severity failure; |
assert ((data_o = X"aa") or (data_o = X"55")) |
report "Software reports unexpected outcome value." |
severity failure; |
end if; |
end if; |
end process test_outcome_register; |
|
|
end; |
-------------------------------------------------------------------------------- |
-- Generated from template tb_template.vhdl by hexconv.pl |
-------------------------------------------------------------------------------- |
-- Light8080 simulation test bench. |
-------------------------------------------------------------------------------- |
-- This test bench was built from a generic template. The details on what tests |
-- are performed by this test bench can be found in the assembly source for the |
-- 8080 program, in file asm\tb0.asm. |
-------------------------------------------------------------------------------- |
-- |
-- This test bench provides a simulated CPU system to test programs. This test |
-- bench does not do any assertions or checks, all assertions are left to the |
-- software. |
-- |
-- The simulated environment has 2KB of RAM, mirror-mapped to all the memory |
-- map of the 8080, initialized with the test program object code. See the perl |
-- script 'util\hexconv.pl' and BAT files in the asm directory. |
-- |
-- Besides, it provides some means to trigger hardware irq from software, |
-- including the specification of the instructions fed to the CPU as interrupt |
-- vectors during inta cycles. |
-- |
-- We will simulate 8 possible irq sources. The software can trigger any one of |
-- them by writing at ports 0x010 to 0x011. Port 0x010 holds the irq source to |
-- be triggered (0 to 7) and port 0x011 holds the number of clock cycles that |
-- will elapse from the end of the instruction that writes to the register to |
-- the assertion of intr. Port 0x012 holds the number of cycles intr will remain |
-- high. Intr will be asserted for 1 cycle at least, so writing a 0 here is the |
-- same as writing 1. |
-- |
-- When the interrupt is acknowledged and inta is asserted, the test bench reads |
-- the value at register 0x010 as the irq source, and feeds an instruction to |
-- the CPU starting from the RAM address 0040h+source*4. |
-- That is, address range 0040h-005fh is reserved for the simulated 'interrupt |
-- vectors', a total of 4 bytes for each of the 8 sources. This allows the |
-- software to easily test different interrupt vectors without any hand |
-- assembly. All of this is strictly simulation-only stuff. |
-- |
-- Upon completion, the software must write a value to register 0x020. Writing |
-- a 0x055 means 'success', writing a 0x0aa means 'failure'. The write operation |
-- will stop the simulation. Success and failure conditions are defined by the |
-- software. |
-- |
-- If a time period defined as constant MAX_SIM_LENGTH passes before anything |
-- is written to io address 0x020, the test bench assumes the software ran away |
-- and quits with an error message. |
-------------------------------------------------------------------------------- |
|
library ieee; |
use ieee.std_logic_1164.ALL; |
use ieee.std_logic_unsigned.all; |
use ieee.numeric_std.ALL; |
|
entity light8080_tb0 is |
end entity light8080_tb0; |
|
architecture behavior of light8080_tb0 is |
|
-------------------------------------------------------------------------------- |
-- Simulation parameters |
|
-- T: simulated clock period |
constant T : time := 100 ns; |
|
-- MAX_SIM_LENGTH: maximum simulation time |
constant MAX_SIM_LENGTH : time := T*7000; -- enough for the tb0 |
|
|
-------------------------------------------------------------------------------- |
|
-- Component Declaration for the Unit Under Test (UUT) |
component light8080 |
port ( |
addr_out : out std_logic_vector(15 downto 0); |
|
inta : out std_logic; |
inte : out std_logic; |
halt : out std_logic; |
intr : in std_logic; |
|
vma : out std_logic; |
io : out std_logic; |
rd : out std_logic; |
wr : out std_logic; |
fetch : out std_logic; |
data_in : in std_logic_vector(7 downto 0); |
data_out : out std_logic_vector(7 downto 0); |
|
clk : in std_logic; |
reset : in std_logic ); |
end component; |
|
|
signal data_i : std_logic_vector(7 downto 0) := (others=>'0'); |
signal vma_o : std_logic; |
signal rd_o : std_logic; |
signal wr_o : std_logic; |
signal io_o : std_logic; |
signal data_o : std_logic_vector(7 downto 0); |
signal data_mem : std_logic_vector(7 downto 0); |
signal addr_o : std_logic_vector(15 downto 0); |
signal fetch_o : std_logic; |
signal inta_o : std_logic; |
signal inte_o : std_logic; |
signal intr_i : std_logic := '0'; |
signal halt_o : std_logic; |
|
signal reset : std_logic := '0'; |
signal clk : std_logic := '1'; |
signal done : std_logic := '0'; |
|
type t_rom is array(0 to 2047) of std_logic_vector(7 downto 0); |
|
signal rom : t_rom := ( |
|
X"31",X"1d",X"06",X"3e",X"77",X"e6",X"00",X"ca", |
X"0d",X"00",X"cd",X"0a",X"05",X"d2",X"13",X"00", |
X"cd",X"0a",X"05",X"ea",X"19",X"00",X"cd",X"0a", |
X"05",X"f2",X"1f",X"00",X"cd",X"0a",X"05",X"c2", |
X"2e",X"00",X"da",X"2e",X"00",X"e2",X"2e",X"00", |
X"fa",X"2e",X"00",X"c3",X"31",X"00",X"cd",X"0a", |
X"05",X"c6",X"06",X"c2",X"39",X"00",X"cd",X"0a", |
X"05",X"da",X"42",X"00",X"e2",X"42",X"00",X"f2", |
X"45",X"00",X"cd",X"0a",X"05",X"c6",X"70",X"e2", |
X"4d",X"00",X"cd",X"0a",X"05",X"fa",X"56",X"00", |
X"ca",X"56",X"00",X"d2",X"59",X"00",X"cd",X"0a", |
X"05",X"c6",X"81",X"fa",X"61",X"00",X"cd",X"0a", |
X"05",X"ca",X"6a",X"00",X"da",X"6a",X"00",X"e2", |
X"6d",X"00",X"cd",X"0a",X"05",X"c6",X"fe",X"da", |
X"75",X"00",X"cd",X"0a",X"05",X"ca",X"7e",X"00", |
X"e2",X"7e",X"00",X"fa",X"81",X"00",X"cd",X"0a", |
X"05",X"fe",X"00",X"da",X"99",X"00",X"ca",X"99", |
X"00",X"fe",X"f5",X"da",X"99",X"00",X"c2",X"99", |
X"00",X"fe",X"ff",X"ca",X"99",X"00",X"da",X"9c", |
X"00",X"cd",X"0a",X"05",X"ce",X"0a",X"ce",X"0a", |
X"fe",X"0b",X"ca",X"a8",X"00",X"cd",X"0a",X"05", |
X"d6",X"0c",X"d6",X"0f",X"fe",X"f0",X"ca",X"b4", |
X"00",X"cd",X"0a",X"05",X"de",X"f1",X"de",X"0e", |
X"fe",X"f0",X"ca",X"c0",X"00",X"cd",X"0a",X"05", |
X"e6",X"55",X"dc",X"0a",X"05",X"cc",X"0a",X"05", |
X"fe",X"50",X"ca",X"d0",X"00",X"cd",X"0a",X"05", |
X"f6",X"3a",X"dc",X"0a",X"05",X"cc",X"0a",X"05", |
X"fe",X"7a",X"ca",X"e0",X"00",X"cd",X"0a",X"05", |
X"ee",X"0f",X"dc",X"0a",X"05",X"cc",X"0a",X"05", |
X"fe",X"75",X"ca",X"f0",X"00",X"cd",X"0a",X"05", |
X"e6",X"00",X"dc",X"0a",X"05",X"e4",X"0a",X"05", |
X"fc",X"0a",X"05",X"c4",X"0a",X"05",X"fe",X"00", |
X"ca",X"06",X"01",X"cd",X"0a",X"05",X"d6",X"77", |
X"d4",X"0a",X"05",X"ec",X"0a",X"05",X"f4",X"0a", |
X"05",X"cc",X"0a",X"05",X"fe",X"89",X"ca",X"1c", |
X"01",X"cd",X"0a",X"05",X"e6",X"ff",X"e4",X"29", |
X"01",X"fe",X"d9",X"ca",X"86",X"01",X"cd",X"0a", |
X"05",X"e8",X"c6",X"10",X"ec",X"35",X"01",X"c6", |
X"02",X"e0",X"cd",X"0a",X"05",X"e0",X"c6",X"20", |
X"fc",X"41",X"01",X"c6",X"04",X"e8",X"cd",X"0a", |
X"05",X"f0",X"c6",X"80",X"f4",X"4d",X"01",X"c6", |
X"80",X"f8",X"cd",X"0a",X"05",X"f8",X"c6",X"40", |
X"d4",X"59",X"01",X"c6",X"40",X"f0",X"cd",X"0a", |
X"05",X"d8",X"c6",X"8f",X"dc",X"65",X"01",X"d6", |
X"02",X"d0",X"cd",X"0a",X"05",X"d0",X"c6",X"f7", |
X"c4",X"71",X"01",X"c6",X"fe",X"d8",X"cd",X"0a", |
X"05",X"c8",X"c6",X"01",X"cc",X"7d",X"01",X"c6", |
X"d0",X"c0",X"cd",X"0a",X"05",X"c0",X"c6",X"47", |
X"fe",X"47",X"c8",X"cd",X"0a",X"05",X"3e",X"77", |
X"3c",X"47",X"04",X"48",X"0d",X"51",X"5a",X"63", |
X"6c",X"7d",X"3d",X"4f",X"59",X"6b",X"45",X"50", |
X"62",X"7c",X"57",X"14",X"6a",X"4d",X"0c",X"61", |
X"44",X"05",X"58",X"7b",X"5f",X"1c",X"43",X"60", |
X"24",X"4c",X"69",X"55",X"15",X"7a",X"67",X"25", |
X"54",X"42",X"68",X"2c",X"5d",X"1d",X"4b",X"79", |
X"6f",X"2d",X"65",X"5c",X"53",X"4a",X"41",X"78", |
X"fe",X"77",X"c4",X"0a",X"05",X"af",X"06",X"01", |
X"0e",X"03",X"16",X"07",X"1e",X"0f",X"26",X"1f", |
X"2e",X"3f",X"80",X"81",X"82",X"83",X"84",X"85", |
X"87",X"fe",X"f0",X"c4",X"0a",X"05",X"90",X"91", |
X"92",X"93",X"94",X"95",X"fe",X"78",X"c4",X"0a", |
X"05",X"97",X"c4",X"0a",X"05",X"3e",X"80",X"87", |
X"06",X"01",X"0e",X"02",X"16",X"03",X"1e",X"04", |
X"26",X"05",X"2e",X"06",X"88",X"06",X"80",X"80", |
X"80",X"89",X"80",X"80",X"8a",X"80",X"80",X"8b", |
X"80",X"80",X"8c",X"80",X"80",X"8d",X"80",X"80", |
X"8f",X"fe",X"37",X"c4",X"0a",X"05",X"3e",X"80", |
X"87",X"06",X"01",X"98",X"06",X"ff",X"80",X"99", |
X"80",X"9a",X"80",X"9b",X"80",X"9c",X"80",X"9d", |
X"fe",X"e0",X"c4",X"0a",X"05",X"3e",X"80",X"87", |
X"9f",X"fe",X"ff",X"c4",X"0a",X"05",X"3e",X"ff", |
X"06",X"fe",X"0e",X"fc",X"16",X"ef",X"1e",X"7f", |
X"26",X"f4",X"2e",X"bf",X"37",X"a7",X"dc",X"0a", |
X"05",X"a1",X"a2",X"a3",X"a4",X"a5",X"a7",X"fe", |
X"24",X"c4",X"0a",X"05",X"af",X"06",X"01",X"0e", |
X"02",X"16",X"04",X"1e",X"08",X"26",X"10",X"2e", |
X"20",X"37",X"b0",X"dc",X"0a",X"05",X"b1",X"b2", |
X"b3",X"b4",X"b5",X"b7",X"fe",X"3f",X"c4",X"0a", |
X"05",X"3e",X"00",X"26",X"8f",X"2e",X"4f",X"37", |
X"a8",X"dc",X"0a",X"05",X"a9",X"aa",X"ab",X"ac", |
X"ad",X"fe",X"cf",X"c4",X"0a",X"05",X"af",X"c4", |
X"0a",X"05",X"06",X"44",X"0e",X"45",X"16",X"46", |
X"1e",X"47",X"26",X"05",X"2e",X"16",X"70",X"06", |
X"00",X"46",X"3e",X"44",X"b8",X"c4",X"0a",X"05", |
X"72",X"16",X"00",X"56",X"3e",X"46",X"ba",X"c4", |
X"0a",X"05",X"73",X"1e",X"00",X"5e",X"3e",X"47", |
X"bb",X"c4",X"0a",X"05",X"74",X"26",X"05",X"2e", |
X"16",X"66",X"3e",X"05",X"bc",X"c4",X"0a",X"05", |
X"75",X"26",X"05",X"2e",X"16",X"6e",X"3e",X"16", |
X"bd",X"c4",X"0a",X"05",X"26",X"05",X"2e",X"16", |
X"3e",X"32",X"77",X"be",X"c4",X"0a",X"05",X"86", |
X"fe",X"64",X"c4",X"0a",X"05",X"af",X"7e",X"fe", |
X"32",X"c4",X"0a",X"05",X"26",X"05",X"2e",X"16", |
X"7e",X"96",X"c4",X"0a",X"05",X"3e",X"80",X"87", |
X"8e",X"fe",X"33",X"c4",X"0a",X"05",X"3e",X"80", |
X"87",X"9e",X"fe",X"cd",X"c4",X"0a",X"05",X"37", |
X"a6",X"dc",X"0a",X"05",X"c4",X"0a",X"05",X"3e", |
X"25",X"37",X"b6",X"dc",X"0a",X"05",X"fe",X"37", |
X"c4",X"0a",X"05",X"37",X"ae",X"dc",X"0a",X"05", |
X"fe",X"05",X"c4",X"0a",X"05",X"36",X"55",X"34", |
X"35",X"86",X"fe",X"5a",X"c4",X"0a",X"05",X"01", |
X"ff",X"12",X"11",X"ff",X"12",X"21",X"ff",X"12", |
X"03",X"13",X"23",X"3e",X"13",X"b8",X"c4",X"0a", |
X"05",X"ba",X"c4",X"0a",X"05",X"bc",X"c4",X"0a", |
X"05",X"3e",X"00",X"b9",X"c4",X"0a",X"05",X"bb", |
X"c4",X"0a",X"05",X"bd",X"c4",X"0a",X"05",X"0b", |
X"1b",X"2b",X"3e",X"12",X"b8",X"c4",X"0a",X"05", |
X"ba",X"c4",X"0a",X"05",X"bc",X"c4",X"0a",X"05", |
X"3e",X"ff",X"b9",X"c4",X"0a",X"05",X"bb",X"c4", |
X"0a",X"05",X"bd",X"c4",X"0a",X"05",X"32",X"16", |
X"05",X"af",X"3a",X"16",X"05",X"fe",X"ff",X"c4", |
X"0a",X"05",X"2a",X"14",X"05",X"22",X"16",X"05", |
X"3a",X"14",X"05",X"47",X"3a",X"16",X"05",X"b8", |
X"c4",X"0a",X"05",X"3a",X"15",X"05",X"47",X"3a", |
X"17",X"05",X"b8",X"c4",X"0a",X"05",X"3e",X"aa", |
X"32",X"16",X"05",X"44",X"4d",X"af",X"0a",X"fe", |
X"aa",X"c4",X"0a",X"05",X"3c",X"02",X"3a",X"16", |
X"05",X"fe",X"ab",X"c4",X"0a",X"05",X"3e",X"77", |
X"32",X"16",X"05",X"2a",X"14",X"05",X"11",X"00", |
X"00",X"eb",X"af",X"1a",X"fe",X"77",X"c4",X"0a", |
X"05",X"af",X"84",X"85",X"c4",X"0a",X"05",X"3e", |
X"cc",X"12",X"3a",X"16",X"05",X"fe",X"cc",X"12", |
X"3a",X"16",X"05",X"fe",X"cc",X"c4",X"0a",X"05", |
X"21",X"77",X"77",X"29",X"3e",X"ee",X"bc",X"c4", |
X"0a",X"05",X"bd",X"c4",X"0a",X"05",X"21",X"55", |
X"55",X"01",X"ff",X"ff",X"09",X"3e",X"55",X"d4", |
X"0a",X"05",X"bc",X"c4",X"0a",X"05",X"3e",X"54", |
X"bd",X"c4",X"0a",X"05",X"21",X"aa",X"aa",X"11", |
X"33",X"33",X"19",X"3e",X"dd",X"bc",X"c4",X"0a", |
X"05",X"bd",X"c4",X"0a",X"05",X"37",X"d4",X"0a", |
X"05",X"3f",X"dc",X"0a",X"05",X"3e",X"aa",X"2f", |
X"fe",X"55",X"c4",X"0a",X"05",X"b7",X"27",X"fe", |
X"55",X"c4",X"0a",X"05",X"3e",X"88",X"87",X"27", |
X"fe",X"76",X"c4",X"0a",X"05",X"af",X"3e",X"aa", |
X"27",X"d4",X"0a",X"05",X"fe",X"10",X"c4",X"0a", |
X"05",X"af",X"3e",X"9a",X"27",X"d4",X"0a",X"05", |
X"c4",X"0a",X"05",X"37",X"3e",X"42",X"07",X"dc", |
X"0a",X"05",X"07",X"d4",X"0a",X"05",X"fe",X"09", |
X"c4",X"0a",X"05",X"0f",X"d4",X"0a",X"05",X"0f", |
X"fe",X"42",X"c4",X"0a",X"05",X"17",X"17",X"d4", |
X"0a",X"05",X"fe",X"08",X"c4",X"0a",X"05",X"1f", |
X"1f",X"dc",X"0a",X"05",X"fe",X"02",X"c4",X"0a", |
X"05",X"01",X"34",X"12",X"11",X"aa",X"aa",X"21", |
X"55",X"55",X"af",X"c5",X"d5",X"e5",X"f5",X"01", |
X"00",X"00",X"11",X"00",X"00",X"21",X"00",X"00", |
X"3e",X"c0",X"c6",X"f0",X"f1",X"e1",X"d1",X"c1", |
X"dc",X"0a",X"05",X"c4",X"0a",X"05",X"e4",X"0a", |
X"05",X"fc",X"0a",X"05",X"3e",X"12",X"b8",X"c4", |
X"0a",X"05",X"3e",X"34",X"b9",X"c4",X"0a",X"05", |
X"3e",X"aa",X"ba",X"c4",X"0a",X"05",X"bb",X"c4", |
X"0a",X"05",X"3e",X"55",X"bc",X"c4",X"0a",X"05", |
X"bd",X"c4",X"0a",X"05",X"21",X"00",X"00",X"39", |
X"22",X"1b",X"05",X"31",X"1a",X"05",X"3b",X"3b", |
X"33",X"3b",X"3e",X"55",X"32",X"18",X"05",X"2f", |
X"32",X"19",X"05",X"c1",X"b8",X"c4",X"0a",X"05", |
X"2f",X"b9",X"c4",X"0a",X"05",X"21",X"1a",X"05", |
X"f9",X"21",X"33",X"77",X"3b",X"3b",X"e3",X"3a", |
X"19",X"05",X"fe",X"77",X"c4",X"0a",X"05",X"3a", |
X"18",X"05",X"fe",X"33",X"c4",X"0a",X"05",X"3e", |
X"55",X"bd",X"c4",X"0a",X"05",X"2f",X"bc",X"c4", |
X"0a",X"05",X"2a",X"1b",X"05",X"f9",X"21",X"0f", |
X"05",X"e9",X"3e",X"aa",X"d3",X"20",X"76",X"3e", |
X"55",X"d3",X"20",X"76",X"16",X"05",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00", |
X"00",X"00",X"00",X"00",X"00",X"00",X"00",X"00" |
|
); |
|
signal irq_vector_byte: std_logic_vector(7 downto 0); |
signal irq_source : integer range 0 to 7; |
signal cycles_to_intr : integer range -10 to 255; |
signal intr_width : integer range 0 to 255; |
signal int_vector_index : integer range 0 to 3; |
signal addr_vector_table: integer range 0 to 65535; |
|
begin |
|
-- Instantiate the Unit Under Test (UUT) |
uut: light8080 PORT MAP( |
clk => clk, |
reset => reset, |
vma => vma_o, |
rd => rd_o, |
wr => wr_o, |
io => io_o, |
fetch => fetch_o, |
addr_out => addr_o, |
data_in => data_i, |
data_out => data_o, |
|
intr => intr_i, |
inte => inte_o, |
inta => inta_o, |
halt => halt_o |
); |
|
|
-- clock: run clock until test is done |
clock: |
process(done, clk) |
begin |
if done = '0' then |
clk <= not clk after T/2; |
end if; |
end process clock; |
|
|
-- Drive reset and done |
main_test: |
process |
begin |
-- Assert reset for at least one full clk period |
reset <= '1'; |
wait until clk = '1'; |
wait for T/2; |
reset <= '0'; |
|
-- Remember to 'cut away' the preceding 3 clk semiperiods from |
-- the wait statement... |
wait for (MAX_SIM_LENGTH - T*1.5); |
|
-- Maximum sim time elapsed, assume the program ran away and |
-- stop the clk process asserting 'done' (which will stop the simulation) |
done <= '1'; |
|
assert (done = '1') |
report "Test timed out." |
severity failure; |
|
wait; |
end process main_test; |
|
|
-- Synchronous RAM; 2KB mirrored everywhere |
synchronous_ram: |
process(clk) |
begin |
if (clk'event and clk='1') then |
data_mem <= rom(conv_integer(addr_o(10 downto 0))); |
if wr_o = '1' and addr_o(15 downto 11)="00000" then |
rom(conv_integer(addr_o(10 downto 0))) <= data_o; |
end if; |
end if; |
end process synchronous_ram; |
|
|
irq_trigger_register: |
process(clk) |
begin |
if (clk'event and clk='1') then |
if reset='1' then |
cycles_to_intr <= -10; -- meaning no interrupt pending |
else |
if io_o='1' and wr_o='1' and addr_o(7 downto 0)=X"11" then |
cycles_to_intr <= conv_integer(data_o) + 1; |
else |
if cycles_to_intr >= 0 then |
cycles_to_intr <= cycles_to_intr - 1; |
end if; |
end if; |
end if; |
end if; |
end process irq_trigger_register; |
|
irq_pulse_width_register: |
process(clk) |
variable intr_pulse_countdown : integer; |
begin |
if (clk'event and clk='1') then |
if reset='1' then |
intr_width <= 1; |
intr_pulse_countdown := 0; |
intr_i <= '0'; |
else |
if io_o='1' and wr_o='1' and addr_o(7 downto 0)=X"12" then |
intr_width <= conv_integer(data_o) + 1; |
end if; |
|
if cycles_to_intr = 0 then |
intr_i <= '1'; |
intr_pulse_countdown := intr_width; |
elsif intr_pulse_countdown <= 1 then |
intr_i <= '0'; |
else |
intr_pulse_countdown := intr_pulse_countdown - 1; |
end if; |
end if; |
end if; |
end process irq_pulse_width_register; |
|
irq_source_register: |
process(clk) |
begin |
if (clk'event and clk='1') then |
if reset='1' then |
irq_source <= 0; |
else |
if io_o='1' and wr_o='1' and addr_o(7 downto 0)=X"10" then |
irq_source <= conv_integer(data_o(2 downto 0)); |
end if; |
end if; |
end if; |
end process irq_source_register; |
|
|
-- 'interrupt vector' logic. |
irq_vector_table: |
process(clk) |
begin |
if (clk'event and clk='1') then |
if vma_o = '1' and rd_o='1' then |
if inta_o = '1' then |
int_vector_index <= int_vector_index + 1; |
else |
int_vector_index <= 0; |
end if; |
end if; |
-- this is the address of the byte we'll feed to the CPU |
addr_vector_table <= 64+irq_source*4+int_vector_index; |
end if; |
end process irq_vector_table; |
irq_vector_byte <= rom(addr_vector_table); |
|
data_i <= data_mem when inta_o='0' else irq_vector_byte; |
|
|
test_outcome_register: |
process(clk) |
variable outcome : std_logic_vector(7 downto 0); |
begin |
if (clk'event and clk='1') then |
if io_o='1' and wr_o='1' and addr_o(7 downto 0)=X"20" then |
assert (data_o /= X"55") report "Software reports SUCCESS" severity failure; |
assert (data_o /= X"aa") report "Software reports FAILURE" severity failure; |
assert ((data_o = X"aa") or (data_o = X"55")) |
report "Software reports unexpected outcome value." |
severity failure; |
end if; |
end if; |
end process test_outcome_register; |
|
|
end; |
/light8080/trunk/vhdl/light8080.vhdl
1,6 → 1,7
--############################################################################## |
-- light8080 : Intel 8080 binary compatible core |
--############################################################################## |
-- v1.3 (12 FEB 2012) Fix: General solution to AND, OR, XOR clearing CY,ACY. |
-- v1.2 (08 jul 2010) Fix: XOR operations were not clearing CY,ACY. |
-- v1.1 (20 sep 2008) Microcode bug in INR fixed. |
-- v1.0 (05 nov 2007) First release. Jose A. Ruiz. |
59,7 → 60,7
-- works as the master memory and io synchronous enable. More specifically: |
-- |
-- * All memory/io control signals (io,rd,wr) are valid only when vma is |
-- high. They never activate when vms is inactive. |
-- high. They never activate when vma is inactive. |
-- * Signals data_out and address are only valid when vma='1'. The high |
-- address byte is 0x00 for all io accesses. |
-- * Signal data_in should be valid by the end of the cycle after vma='1', |
233,11 → 234,11
"00001000000000000000110000011111", -- 03e |
"00000100011000111000001101001111", -- 03f |
"00001000000000000000110000011111", -- 040 |
"00000100011000111000001101000100", -- 041 |
"00000100011000111100001101000100", -- 041 |
"00001000000000000000110000011111", -- 042 |
"00000100011000111000001101000101", -- 043 |
"00000100011000111100001101000101", -- 043 |
"00001000000000000000110000011111", -- 044 |
"00000100011000111000001101000110", -- 045 |
"00000100011000111100001101000110", -- 045 |
"00001000000000000000110000011111", -- 046 |
"00000100011000111000001110001110", -- 047 |
"00000000101010000000000000000000", -- 048 |
249,11 → 250,11
"00000000101010000000000000000000", -- 04e |
"00000100011000111000001101001111", -- 04f |
"00000000101010000000000000000000", -- 050 |
"00000100011000111000001101000100", -- 051 |
"00000100011000111100001101000100", -- 051 |
"00000000101010000000000000000000", -- 052 |
"00000100011000111000001101000101", -- 053 |
"00000100011000111100001101000101", -- 053 |
"00000000101010000000000000000000", -- 054 |
"00000100011000111000001101000110", -- 055 |
"00000100011000111100001101000110", -- 055 |
"00000000101010000000000000000000", -- 056 |
"00000100011000111000001110001110", -- 057 |
"00001000000000000000110000011001", -- 058 |
265,11 → 266,11
"00001000000000000000110000011001", -- 05e |
"00000100011000111000001101001111", -- 05f |
"00001000000000000000110000011001", -- 060 |
"00000100011000111000001101000100", -- 061 |
"00000100011000111100001101000100", -- 061 |
"00001000000000000000110000011001", -- 062 |
"00000100011000111000001101000101", -- 063 |
"00000100011000111100001101000101", -- 063 |
"00001000000000000000110000011001", -- 064 |
"00000100011000111000001101000110", -- 065 |
"00000100011000111100001101000110", -- 065 |
"00001000000000000000110000011001", -- 066 |
"00000100011000111000001110001110", -- 067 |
"10111100101100000000001001001101", -- 068 |
709,7 → 710,10
signal rbank_wr_addr: std_logic_vector(3 downto 0); -- rbank wr addr |
signal DO : std_logic_vector(7 downto 0); -- data output reg |
|
-- Register bank as an array of 16 bytes (asynch. LUT ram) |
-- Register bank as an array of 16 bytes. |
-- This will be implemented as asynchronous LUT RAM in those devices where this |
-- feature is available (Xilinx) and as multiplexed registers where it isn't |
-- (Altera). |
type t_reg_bank is array(0 to 15) of std_logic_vector(7 downto 0); |
-- Register bank : BC, DE, HL, AF, [PC, XY, ZW, SP] |
signal rbank : t_reg_bank; |
728,7 → 732,9
signal do_cpc : std_logic; -- ALU operation is CPC |
signal do_cpc_d : std_logic; -- do_cpc, pipelined |
signal do_daa : std_logic; -- ALU operation is DAA |
signal do_xor : std_logic; -- ALU operation is some XOR (clears CY) |
signal clear_cy : std_logic; -- Instruction unconditionally clears CY |
signal clear_ac : std_logic; -- Instruction unconditionally clears AC |
signal set_ac : std_logic; -- Instruction unconditionally sets AC |
signal flag_ac : std_logic; -- new computed half carry flag |
-- flag_aux_cy: new computed half carry flag (used in 16-bit ops) |
signal flag_aux_cy : std_logic; |
1124,7 → 1130,21
do_cpc <= ucode_field2(23); |
do_cy_op <= ucode_field2(24); |
do_daa <= '1' when ucode_field2(5 downto 2) = "1010" else '0'; |
do_xor <= '1' when ucode_field2(5 downto 0) = "000101" else '0'; |
|
-- ucode_field2(14) will be set for those instructions that modify CY and AC |
-- without following the standard rules -- AND, OR and XOR instructions. |
|
-- Some instructions will unconditionally clear CY (AND, OR, XOR) |
clear_cy <= ucode_field2(14); |
|
-- Some instructions will unconditionally clear AC (OR, XOR)... |
clear_ac <= '1' when ucode_field2(14) = '1' and |
ucode_field2(5 downto 0) /= "000100" |
else '0'; |
-- ...and some others unconditionally SET AC (AND) |
set_ac <= '1' when ucode_field2(14) = '1' and |
ucode_field2(5 downto 0) = "000100" |
else '0'; |
|
aux_cy_in <= reg_aux_cy when set_aux_cy = '0' else '1'; |
|
1230,14 → 1250,15
flag_p <= not(alu_output(7) xor alu_output(6) xor alu_output(5) xor alu_output(4) xor |
alu_output(3) xor alu_output(2) xor alu_output(1) xor alu_output(0)); |
flag_z <= '1' when alu_output=X"00" else '0'; |
-- FIXED 08/JUL/2010: XOR was not clearing AC as it should |
--flag_ac <= (arith_op1(4) xor arith_op2_sgn(4) xor alu_output(4)); |
flag_ac <= (arith_op1(4) xor arith_op2_sgn(4) xor alu_output(4)) and not do_xor; |
-- AC is either the CY from bit 4 OR 0 if the instruction clears it implicitly |
flag_ac <= '1' when set_ac = '1' else |
'0' when clear_ac = '1' else |
(arith_op1(4) xor arith_op2_sgn(4) xor alu_output(4)); |
|
-- FIXED 08/JUL/2010: XOR was not clearing CY as it should |
--flag_cy_1 <= cy_arith when use_logic = '1' else cy_shifter; |
flag_cy_1 <= '0' when do_xor='1' else |
cy_arith when use_logic = '1' and do_xor='0' else |
-- CY comes from the adder or the shifter, or is 0 if the instruction |
-- implicitly clears it. |
flag_cy_1 <= '0' when clear_cy = '1' else |
cy_arith when use_logic = '1' and clear_cy = '0' else |
cy_shifter; |
flag_cy_2 <= not flag_reg(0) when do_cpc='0' else '1'; -- cmc, stc |
flag_cy <= flag_cy_1 when do_cy_op='0' else flag_cy_2; |