TDP ≠ power draw. TDP is literally the Thermal Design Power aka what is the amount of thermal load a system designer should account for. Yes it can give you a rough and dirty idea of maximum power draw, but real world power draw can be entirely different because that depends on load.
For example, if your i5-6500 runs at 50-70% load while the newer processor only runs at 20-30% load due to IPC and instruction improvements the newer processor might very well use less power over the course of month than the older one despite the newer one being capable of drawing more
You’re also comparing a 4c4t part to one with 14c/20t not to mention comparing a mass market part to a gaming specific part. The 6600k (which is targeting the same market segment as the 13600k) has a 91w TDP. Go compare your 6500 to the i5-13500 except again it’s still comparing apples to oranges when you just look at raw specs and TDP ≠ real world power consumption
TDP ≠ power draw. TDP is literally the Thermal Design Power aka what is the amount of thermal load a system designer should account for. Yes it can give you a rough and dirty idea of maximum power draw, but real world power draw can be entirely different because that depends on load.
For example, if your i5-6500 runs at 50-70% load while the newer processor only runs at 20-30% load due to IPC and instruction improvements the newer processor might very well use less power over the course of month than the older one despite the newer one being capable of drawing more
You’re also comparing a 4c4t part to one with 14c/20t not to mention comparing a mass market part to a gaming specific part. The 6600k (which is targeting the same market segment as the 13600k) has a 91w TDP. Go compare your 6500 to the i5-13500 except again it’s still comparing apples to oranges when you just look at raw specs and TDP ≠ real world power consumption