He risked his neck. When Edward Snowden chose to expose the U.S. National Security Agency (NSA)'s mass surveillance Leviathan, and that of its British counterpart, GCHQ, 10 years ago, he put his life on the line. And he has always declared he has never regretted it. But years after his act of extraordinary courage, the Snowden archive remains largely unpublished. He trusted in journalists to decide what to publish. In an article published in June 2023, by Guardian Pulitzer prize winner Ewen MacAskill - who flew to Hong Kong with Glenn Greenwald and Laura Poitras to meet Edward Snowden - McAskill confirmed that most of the archive has not been made public. "In the end, we published only about 1 percent of the document,” he wrote. What does the 99 percent of the Snowden archive contain? A decade on, it remains shrouded in secrecy. A doctoral thesis by American investigative journalist and post-doctoral researcher Jacob Appelbaum has now revealed unpublished information from the Snowden archive. These revelations go back to a decade but they remain of indisputable public interest: the NSA listed Cavium, an American semiconductor company marketing Central Processing Units (CPUs) - the main processor in a computer which runs the operating system and applications - as a successful example of a "SIGINT enabled" CPU vendor. Cavium, now owned by Marvell said it does not implement back doors for any government. · the NSA compromised lawful Russian interception infrastructure, SORM. The NSA archive contains slides showing two Russian officers wearing jackets with a slogan written in Cyrillic: "you talk, we listen". The NSA and/or GCHQ has also compromised "Key European LI [lawful interception] systems. · among example targets of its mass surveillance program, PRISM, the NSA listed the Tibetan government in exile.
A decade after Snowden exposed NSA’s mass surveillance in cooperation with the British GCHQ, only about 1 percent of the documents have been published, but three major facts can finally be revealed thanks to a doctoral thesis in applied cryptography by Jacob Appelbaum.
Then who makes the coprocessor that is inserted into the die?
AMD, obviously, they’re not going to let anyone mess with their lithography masks. With IP bought from ARM, to wit: It’s a Cortex A5, which is a bog-standard block of IP if you need something better than a microcontroller but not really beefy either. Or you could say that TSMC makes them, just as the rest of the silicon.
(AMD also has an ARM architecture license and thus the right to design its own ARM cores but a) those were designed to be in a completely different performance class (application server) and b) they never made it to market. They’re now probably tinkering on RISC-V in the background in their eternal quest to not have Intel fused to their hip by x86).
AMD, obviously, they’re not going to let anyone mess with their lithography masks. With IP bought from ARM, to wit: It’s a Cortex A5, which is a bog-standard block of IP if you need something better than a microcontroller but not really beefy either. Or you could say that TSMC makes them, just as the rest of the silicon.
(AMD also has an ARM architecture license and thus the right to design its own ARM cores but a) those were designed to be in a completely different performance class (application server) and b) they never made it to market. They’re now probably tinkering on RISC-V in the background in their eternal quest to not have Intel fused to their hip by x86).