- Ryzen’s comeback story: why it felt sudden (but wasn’t)
- Future CPU Security: Are Spectre-Class Surprises Over?
- Pentium: How a Number Turned Into a Brand
- AMD K5/K6: How AMD Learned to Fight Intel on Intel’s Turf
- AVX: Instructions That Make Workloads Faster—and CPUs Hotter
- Shellshock: when an environment variable became world news
- Celeron: how a cut-down chip became an upgrade legend
- Intel Tick-Tock: The Strategy That Worked… Until It Didn’t
- How Server Features Keep Sliding Into Desktop CPUs
- ATI Before AMD: The Other School of Graphics Engineering
- Xeon history: how server chips set the rules for everyone
- Containers vs VMs: which CPU profile wins for what
- 386: the moment the PC started acting like a server
- EPYC: how AMD turned servers into a showroom
- 286 explained: protected mode that saved PCs—and tortured developers
- Microcode: the “firmware” inside your CPU you can’t ignore anymore
- From monoliths to chiplets: why modern CPUs look like LEGO
- P-cores vs E-cores: hybrid CPUs explained without marketing
- x86 after 2026: five future scenarios (and the most likely one)
- Intel XeSS: how Intel joined the fight through software
- CPUs without fans: the comeback of passive computing
- Thread Director: Why the CPU Now Advises the OS
- Why a Cache Monster Can Beat a “Faster” CPU
- How to Read CPU Benchmarks Without Getting Played
- Duron: the budget chip people overclocked like a flagship
- AMD VCN/VCE: why the codec block matters more than you think
- Intel vs AMD for Real Work: Compiling, Rendering, VMs, and AI