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211.
▲
Reverse-engineering the audio chip in the Nintendo Game Boy Color
righto.com
6 comments
6 years ago
ink_13
100 points
212.
▲
Reverse-engineering a 1960s hybrid flip flop module with X-ray CT scans
righto.com
26 comments
4 years ago
zdw
99 points
213.
▲
Inside the ubiquitous 741 op amp, the circuits in silicon
righto.com
14 comments
11 years ago
robin_reala
99 points
214.
▲
Silicon reverse-engineering: the Intel 8086 processor's flag circuitry
righto.com
24 comments
3 years ago
zdw
98 points
215.
▲
IBM, sonic delay lines, and the history of the 80×24 display (2019)
righto.com
45 comments
3 months ago
rbanffy
97 points
216.
▲
How the Z80’s 4-bit ALU works (2013)
righto.com
41 comments
10 years ago
andars
97 points
217.
▲
How the bootstrap load made the historic Intel 8008 processor possible
righto.com
29 comments
6 years ago
ink_13
97 points
218.
▲
How the 8086 processor determines the length of an instruction
righto.com
24 comments
3 years ago
picture
97 points
219.
▲
The x86's Decimal Adjust after Addition (DAA) instruction
righto.com
63 comments
3 years ago
zdw
96 points
220.
▲
“Special register groups” invaded computer dictionaries for decades
righto.com
60 comments
7 years ago
eaguyhn
96 points
221.
▲
Reverse-engineering the Intel 8086 processor's HALT circuits
righto.com
28 comments
3 years ago
picture
96 points
222.
▲
Reverse-engineering the classic MK4116 16-kilobit DRAM chip (2020)
righto.com
20 comments
3 years ago
nickt
96 points
223.
▲
Two bits per transistor: high-density ROM in Intel's 8087 floating point chip
righto.com
13 comments
8 years ago
magnat
93 points
224.
▲
Reverse engineering the Intel 8008 ALU
righto.com
10 comments
9 years ago
reportingsjr
93 points
225.
▲
Powering up a module from the IBM 604: an electronic calculator from 1948
righto.com
29 comments
16 days ago
elpocko
92 points
226.
▲
Inside the vintage 74181 ALU chip: how it works and why it's so strange
righto.com
13 comments
9 years ago
dwaxe
92 points
227.
▲
“Hello world” in the BCPL language on the Xerox Alto simulator
righto.com
59 comments
10 years ago
tonyg
91 points
228.
▲
Fixing the core memory in a vintage IBM 1401 mainframe
righto.com
13 comments
11 years ago
kens
89 points
229.
▲
Identifying the “Early IBM Computer” in a Twitter Photo
righto.com
46 comments
9 years ago
stablemap
88 points
230.
▲
Hidden surprises in the Bitcoin blockchain and how they are stored (2014)
righto.com
33 comments
9 years ago
astdb
88 points
231.
▲
IBM mainframe tube module part II: Powering up and using a 1950s key debouncer
righto.com
25 comments
8 years ago
robin_reala
88 points
232.
▲
Restoring YC's Xerox Alto day 7: experiments with disk and Ethernet emulators
righto.com
14 comments
10 years ago
dwaxe
88 points
233.
▲
Restoring YC's Xerox Alto day 10: New boards, running programs, mouse problems
righto.com
13 comments
10 years ago
dwaxe
88 points
234.
▲
Texas Instruments TMX 1795: the almost first, forgotten microprocessor (2015)
righto.com
43 comments
4 years ago
lproven
86 points
235.
▲
Die analysis of the 8087 math coprocessor's fast bit shifter (2020)
righto.com
19 comments
a day ago
Jimmc414
86 points
236.
▲
The vintage 74181 ALU chip: how it works and why it’s so strange (2017)
righto.com
11 comments
7 years ago
bcaa7f3a8bbc
86 points
237.
▲
Germanium transistors: logic circuits in the IBM 1401 computer
righto.com
55 comments
5 years ago
parsecs
85 points
238.
▲
Reverse-engineering the classic MK4116 16-kilobit DRAM chip
righto.com
32 comments
6 years ago
picture
85 points
239.
▲
Generating the pseudo-random codes that measured distance to Apollo spacecraft
righto.com
18 comments
4 years ago
zdw
85 points
240.
▲
Wealth Distribution in the United States
righto.com
120 comments
2 years ago
ssklash
84 points
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