-- r0 = 0, r1 = 1, r2 = 3, r3 = A
- signal ram : RAM_TYPE := ( 0 => "11101101000010000000000000111000", -- r1 = 7
- 1 => "11101101000100000000000000101000", -- r2 = 5
- 2 => "11101101000110000000000000100000", -- r3 = 4
- 3 => "11100000001000010001100000000000", -- r4 = r2 + r3
- 4 => "11100010001010100000100000000000", -- r5 = r4 and r1
+ signal ram : RAM_TYPE := (
+-- 0 => x"ed2802d0", -- ldi r5, 0x5a;;
+-- 1 => x"ed008058", -- ldi r0, 0x100b;;
+-- 2 => x"e7a80000", -- stw r5, 0(r0);;
+-- 3 => "11101011000000000000000000000010",
+
+ --8 => "11100111100010000000000000000000", --stw
+-- 0 => "11101101000000000000000000000000", --ldi
+-- 1 => "11101101001000000000000000000000", --ldi
+-- 2 => "11100111101000000000000000000000", --stw
+-- 3 => "11100001000000000000000000100001",
+-- 4 => "11101100100000000000001100000000",
+-- 5 => "00001011011111111111111010000011",
+-- 6 => "11101101000000000000000000001000",
+-- 7 => "11100111100000000000000000001111",
+-- 8 => "11100111100000000000000000010011",
+
+-- 9 => x"ed080048", --;ldi r1, 9;;
+-- 10 => x"ed500080", --;ldil r10, list@lo ;; global pointer
+-- 11 => x"fd500002", --;ldih r10, list@hi;;
+-- 12 => x"eb000107", --;call+ fibcall;;
+ --13 => x"eb7ffe03", --;br+ main;;
+-- 13 => "11101011000000000000000000000010", -- endless loop --2; fib(n) {
+ --2; if (list[n] > 0) {
+ --2; return list[n]
+ --2; }
+ --2; a = fib(n-1)
+ --2; list[n] = a + list[n-2]
+ --2; return list[n]
+ --2; }
+ --3;fibcall;
+ --2;update counter for aligned access
+-- 14 => x"e5088800", --;lls r1, r1, 2 ;; *4
+ --2;calculate adress of top element
+-- 15 => x"e0150800", --;add r2, r10, r1;;
+ --3;fibmem;
+ --2;load top element
+-- 16 => x"e7010000", --;ldw r0, 0(r2);;
+ --2;compare if set
+-- 17 => x"ec800000", --;cmpi r0, 0;;
+ --2;return if set
+-- 18 => x"0b000008", --;retnz-;;
+ --2;decrement adress for next lopp
+-- 19 => x"e1910020", --;subi r2, r2, 4;;
+ --2;iterative call for n-1 element
+-- 20 => x"eb7ffe07", --;call+ fibmem;;
+ --2;load n-2 element
+-- 21 => x"e7197ffc", --;ldw r3, 0-4(r2);;
+ --2;add n-1 and n-2 element
+-- 22 => x"e0018000", --;add r0, r3, r0;;
+ --2;increment address for n element
+ --2;is needed because after return
+ --2;we need r2 to be set to the address
+ --2;of element n
+-- 23 => x"e1110020", --;addi r2, r2, 4;;
+ --2;store fib n
+-- 24 => x"e7810000", --;stw r0, 0(r2);;
+-- 25 => x"eb00000a", --;ret+;;
+
+-- 1 1 2 3 5 8 13 21 34 55
+
+
others => x"F0000000");
+-- signal ram : RAM_TYPE := ( 0 => "11101101000000000000000000000000", -- r0 = 0
+--
+-- 1 => "11101101000010000000000000111000", -- r1 = 7
+-- 2 => "11101101000100000000000000101000", -- r2 = 5
+-- 3 => "11101101000110000000000000100000", -- r3 = 4
+-- 4 => "11100000001000010001100000000000", -- r4 = r2 + r3
+-- 5 => "11100010001010100000100000000000", -- r5 = r4 and r1
+--
+-- 6 => "11100001000000000000000000001000", -- r0 = r0 + 1
+-- 7 => "11101100100000000000000000011000", -- cmpi r0 , 2
+--
+-- 8 => "00001011011111111111110010000111", -- jump -7
+-- 9 => "11101011000000000000000010000010", -- jump +1
+-- --10 => "11101011000000000000000010000010", -- jump +1
+--
+ -- 10 => "11100111101010100000000000000001", -- stw r5,r4,1
+ -- 11 => "11101100001000100000000000000000", -- cmp r4 , r4 => 2-2 => 1001
+--
+-- 12 => "11101011000000000000000000000010", -- jump +0
+
+
+
+
+-- others => x"F0000000");
+
-- signal ram : RAM_TYPE := ( 0 => "11100000000100001000000000000000", --add r2, r1, r0 => r2 = 1
-- 1 => "11100000000110001000000000000000", --add r3, r1, r0 => r3 = 1
-- 2 => "11100000001000011001000000000000", --add r4, r3, r2 => r4 = 2
process(clk)
begin
if rising_edge(clk) then
- data_out <= ram(to_integer(UNSIGNED(rd_addr)));
+ --data_out <= ram(to_integer(UNSIGNED(rd_addr)));
+ case rd_addr is
+ when "00000000000" => data_out <= x"ed2802d0"; -- ldi r5, 0x5a;;
+ when "00000000001" => data_out <= x"ed008058"; -- ldi r0, 0x100b;;
+ when "00000000010" => data_out <= x"e7a80000"; -- stw r5, 0(r0);;
+ when others => data_out <= "11101011000000000000000000000010";
+ end case;
if wr_en = '1' then
ram(to_integer(UNSIGNED(wr_addr))) <= data_in;