Posted by LorenDB 10 hours ago
It was the workstation on which I learned Logic Audio before, you know, Apple bought Emagic. I took that machine, running very low latency Reason to live gigs with my band.
Carting around a full-tower computer (not to mention the large CRT monitor we needed) next to a bunch of tube Fender & Ampeg amps was wild at the time. Finding a good drummer was hard; we turned that challenge into a lot of fun programming rhythm sections we could jam to, and control in real-time, live.
Fun fact #1: many today may not know that the only reason switched to the Pentium name was because a court ruled that they couldn't trademark a number and AMD had cross-licensed the microarchitecture and instruction set to AMD and Cyrix.
It was the Pentium 4 when clock speeds went insane and became a huge marketing point even though Pentium chips had lower IPC than Athlons (at that time). There was a belief that CPUs would keep going to 10GHz+. Instead they hit a ceiling at about ~3GHz, that's barely increased to this day (ignoring burst modes).
Intel originally intended to move workstations and servers to the EPIC architecture (eg Merced was an early chip in this series). This began in the 1990s but was years delayed and required writing software a very particular way. It never delievered on its promise.
And AMD, thanks to the earlier cross-licensing agreement, just ate Intel's lunch with the Athlon 64 starting in 2003 by adding the x86_64 instructions, which we still use today.
Fun Fact #2: it was the Pentium 3 that saved Intel's hide long after it was discontinued in favor of the Pentium 4.
The early 2000s were the nascent era of multi-core CPUs. The Pentium 3 had survived in mobile chips and become the Pentium-M and then the Core Duo (and Core 2 Duo later). This was the Centrino platform and included wireless (IIRC 802.11b/g). The Pentium 4 hit the Gigahertz ceiling and EPIC wasn't going to happen to Intel went back to the drawing board, revived the mobile Pentium-3 platform, adding AMD's 64 bit instructions and released their desktop CPUs. Even modern Intel CPUs are in many ways a derivation of the Pentium-3 [1].
[1]: https://en.wikipedia.org/wiki/List_of_Intel_Core_processors
The GHz barrier wasn't special. What was much more important was the fact that AMD was giving Intel a hard time and there was finally hard competition.
In reality, of course what you say is true and the fact that Athlon could previde a few extra hundreds of MHz in the clock frequency was not decisive.
Athlon had many improvements in microarchitecture in comparison with Pentium III, which ensured a much better performance even at equal clock frequency. For instance, Athlon was the first x86 CPU that was able to do both a floating-point multiplication and a floating-point addition in a single clock cycle. Pentium III, like all previous Intel Pentium CPUs required 2 clock cycles for this pair of operations.
This much better floating-point performance of Athlon vs. Intel contrasted with the previous generation, where AMD K6 had competitive integer performance with Intel, but its floating-point performance was well below that of the various Intel Pentium models (which had hurt its performance in some games).