Some laptops are strong in one area and not the other. For example, it's possible to have a notebook with a top-end processor packing lots of cores and threads, but paired with a minimal graphics solution. (Perhaps that is just the processor's integrated graphics silicon, historically no match for a discrete graphics chip.) A laptop like this would net you great performance on programs and workloads that take advantage of lots of CPU resources, but little in the way of power for gaming or applications that rely on graphics acceleration. Higher-powered CPUs or GPUs on a given platform tend to (1) cost more, (2) require more electricity when fully engaged, and (3) run hotter when taxed to the max. That's why buffed-up gaming laptops or high-powered mobile workstations tend to be thick, heavy, expensive beasts. Their high-end chips not only cost more, but they require more space and weighty thermal hardware to keep cool. The best of all possible worlds-maximum graphics and CPU power, maximum battery life, and thin, light design-is a goal ever out of reach. ![]() Rather, laptop design is always a trade-off of these factors, where it's not possible to twist all three of these knobs to 10. ![]() ![]() The fastest laptops, from a raw-CPU perspective, tend to fall into four classes. The first is made up of business machines with top-end processors but integrated graphics. You'll find them under top vendors' business brands, such as Latitude for Dell, ThinkPad for Lenovo, and EliteBook for HP.
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