CPU

• Why Intel adopted AMD64 (and why it changed everything)
• Overclocking in 2026: hobby, lottery, or both?
• Choosing a CPU for 5 Years: Buy by Workload, Not by Logo
• 3D V-Cache / X3D: why cache became the ultimate gaming cheat code
• Will We See x86+ARM Hybrids in Mainstream PCs?
• Big.LITTLE goes x86: how ARM ideas moved into PCs
• AMD Adrenalin: when software features matter more than silicon
• Spectre/Meltdown: when CPUs became the security story of the year
• Why Games Want One CPU and Rendering Wants Another
• Intel vs AMD in games: where benchmarks mislead you
• AI on the CPU: What NPUs Are and Why They Exist
• Hyper-Threading demystified: magic threads or scheduler trickery?
• Core and Core 2: Intel’s Comeback After NetBurst (and What Ops Learned)
• Why Microcode Updates Will Become as Normal as Driver Updates
• UCIe and chiplet mix-and-match: what it changes for buyers
• RISC-V: Real Challenger or Beautiful Idea?
• PL1, PL2, and Tau Explained: The Three Numbers That Decide Everything
• Athlon: the year Intel actually got scared
• Intel Quick Sync: the hidden video weapon
• x86-64: why AMD got 64-bit right first
• AMD Opteron: How Servers Opened the VIP Door for AMD
• P-states and C-states: what your CPU does when it’s idle
• CPU Cache (L1/L2/L3) in Plain English: Why Memory Wins
• 3D Stacking and the Chiplet Future: Where CPUs Are Headed
• Pentium 4 / NetBurst: the loudest mistake of the GHz era
• The clock-speed arms race: why “more GHz” stopped working
• Turbo Boost: how CPUs cheat their spec sheets (legally)
• Pentium II / III: the golden age when clocks still meant something
• Factory Overclocks: Marketing Trick or Real Value?
• Pentium Pro: the CPU that was too early for its own good
• Intel Core generations: how to decode the names without losing it
• Why CPUs Run Hot: Turbo, Power Limits, and Reality
• AMD Chiplets: The Trick That Resurrected Ryzen
• Home Virtualization: What CPU Features Actually Matter
• Integrated Memory Controllers: the change you still feel today
• Pentium FDIV: the math bug that embarrassed Intel worldwide
• AMD Bulldozer: the bold design that didn’t deliver
• IPC > GHz: the simplest explanation you’ll actually remember
• Real-world CPU testing: a simple method for your own workload
• ARM’s Rise: Will x86 End—and When?
• AMD SMT: when the “Intel feature” became a real rival
• 8088 and the IBM PC deal that crowned Intel (almost by accident)
• Silicon lottery: why identical CPUs perform differently
• How Marketing Bends “Generations”: The “New” CPU That’s Basically Old
• Intel’s never-ending 14nm era: when process delays became a soap opera
• Process Nodes Explained: What “7nm / 5nm / 3nm” Really Means
• How x86 Was Born: Why the 8086 Became an “Accidental” Standard for Decades
• Undervolting and Power Limits: Quieter PCs Without Regret
• Binning: How One Die Becomes Five Price Tiers
• 486: why the built-in FPU changed everything (and nobody talks about it)