When selecting a CPU for gaming, the most important characteristics are the clock speed (or frequency), number of cores and threads, cache size, and type of memory it supports. Additional considerations like integrated graphics and overclocking needs may also influence your selection.
In addition to discussing how good the 13700T is for gaming, this article will discuss our recommended:
When using Intel's Core i7-13700T CPU for gaming, you can expect excellent game performance with a high-performance CPU cooler or good game performance with a basic or stock CPU cooler.
Check out our Recommended LGA 1700 Coolers below.
This performance assessment is based on the following characteristics of the CPU and their relevance to the latest graphics-intense games:
- 30 MB of L3 cache is excellent for performance
- 8 Performance cores allow for excellent performance
- 1.40 GHz base frequency
- 4.90 GHz single-core max turbo boost frequency is excellent for performance (requires a high-end cooler)
- 4.80 GHz max turbo boost frequency of the Performance cores are excellent for performance (requires a high-end cooler)
- DDR5 support with a max stock speed of 5600 MHz can be excellent for performance
- Lack of overclocking support cannot benefit performance
- PCIe 5.0 support can be excellent for performance (with the fastest SSDs and GPUs)
- The 13700T has integrated graphics support, but this performance assessment assumes you will use a graphics card. Integrated graphics support is mediocre or worse with the latest graphics-intense games.
A CPU's cache is a small amount of memory, close to the CPU cores, containing recently used data.
Games performance can improve as cache size increases, as it will reduce delays when retrieving commonly used game assets from memory.
An L3 cache capacity of at least 20 MB is ideal for game performance.
The Intel Core i7-13700T has an L3 cache capacity of 30 MB.
The 13700T's impressive 30 MB of L3 cache is excellent for performance with the latest graphics-intense games.
Increased core counts can improve the performance of games that use them, but most modern games don't benefit from having more than 6–8 cores. Remember that cache sizes often increase along with core counts, so if you want to increase your L3 cache, you may need to get a CPU with more cores.
Intel's Core i7-13700T CPUs have 8 Performance (P) cores and 8 Efficiency (E) cores for a total of 16 cores.
The P cores are comparable to previous generation cores. Running a game will primarily use P cores.
E cores are focused on adding additional threads in an energy-efficient manner. They take up much less room on the CPU and generate less heat. However, their smaller cache and minimal interconnect capabilities make them more appropriate for offloading background tasks.
The 13700T's 8 Performance cores allow for excellent performance with the latest graphics-intense games.
Single-core performance is essential for some games, as many don't take full advantage of multiple cores.
Turbo boost frequencies are only achieved under ideal circumstances. The safest strategy for consistent gaming performance with a basic cooler is to get a higher base clock speed processor. However, with adequate cooling, you may be able to maintain speeds near the max boost frequency.
The 13700T CPU's lack of support for overclocking cannot benefit performance with the latest graphics-intense games.
The 8 Performance cores have a 1.40 GHz base frequency and support a 4.80 GHz max turbo frequency.
The 13700T has a 1.40 GHz base frequency, which is the speed before boosting. You can reach these base frequencies even without a high-end cooler.
With a high-end cooler, the 13700T's 4.90 GHz single-core max turbo boost frequency is excellent for performance with the latest graphics-intense games. You can maintain these frequencies with a high-end cooler.
With a high-end cooler, the 13700T's 4.80 GHz max turbo boost frequency of the Performance cores are excellent for performance with the latest graphics-intense games. P core turbo boost frequencies can be maintained with a high-end cooler.
The 13700T CPU's support for DDR5 with a max stock speed of 5600 MHz can be excellent for performance with the latest graphics-intense games.
Faster PC memory can improve game performance and frame rates, but using the fastest RAM may not have as much of an impact as upgrading your CPU and graphics card or adding more RAM.
Learn more about DDR in DDR4 vs. DDR5? Which You Should Buy.
Learn about our recommended RAM for the 13700T in Choosing the Best RAM for Intel's Core i7-13700T CPU.
|Processor Name Suffix||Meaning|
|T||"T" means it is a power-optimized lifestyle CPU. In other words, it is designed not to use as much power and thus not generate as much heat. These CPUs are ideal for lower-performance small form factor PCs and are sold as part of a pre-built system.|
The 13700T model name doesn't have an F suffix. Non-F CPUs contain integrated graphics, and a separate graphics card isn't required if your motherboard includes video-output connectors (e.g., HDMI).
The 13700T model name doesn't have a K suffix. Non-K CPUs can not be overclocked.
A CPU cooler's TDP (Thermal Design Power) rating indicates how much heat it can dissipate in watts. If the cooler can't keep your CPU cool enough, your CPU may throttle (slow down), and your cooler will constantly run at full speed.
Intel CPU specifications indicate this power dissipation number as "Processor Base Power" and "Maximum Turbo Power."
The Core i7-13700T has a base TDP of 35 watts and a max turbo TDP of 106 watts.
A CPU cooler can still work with a lower TDP rating than the TDP of a CPU. However, the CPU will eventually throttle itself to a lower frequency to allow itself to cool.
The CPU may not achieve or maintain maximum turbo speeds without adequate cooling.
Learn more in What is the Best Type of CPU cooler for a Gaming PC?.
The distance between heatsink screw holes for the LGA 1700 socket increased to 78x78 mm from the 75x75 mm spacing typical of recent sockets. This new spacing means you'll need a new cooler/
Locked Intel CPUs may come with a stock CPU cooler. These CPU models do not have a "K" in the name. While stock coolers will prevent your CPU from overheating, your CPU will throttle its performance during games and other intensive tasks. Higher TDP coolers will keep your CPU at turbo speeds for longer durations. Stock coolers are often quite loud at their maximum speed.
The LGA 1700 socket will require a CPU cooler that supports the new socket size. Some manufacturers are releasing upgrade kits for LGA 1200 heatsinks to support the new size.
Best AIO Liquid Cooler: Enermax Liqmax III 360
- This Enermax liquid cooler has an excellent cooling capability with a 360-watt TDP (Thermal Design Power).
- Supports a variety of CPU sockets, including Intel LGA 2066, 2011-3, 2011, 1700, 1200, 1366, 1156, 1155, 1151, 1150 and AMD AM4, AM3+, AM3, AM2+, AM2, FM2+, FM2, FM1.
- Quiet operation at 14-27 dBA.
- You can get the LGA 1700 Enermax Mounting Kit for LIQMAX III on Amazon (affiliate link) or request a free LGA 1700 mounting kit via the LGA 1700 Mounting Kit Request Form.
- Make sure your computer case dimensions support this, as it will take up a decent amount of space!
Best Dual-Fan Air CPU Cooler: Noctua NH-D15
- Dual 140 mm fans provide 220-watt TDP (183 NSPR) of cooling capability.
- Supports a variety of CPU sockets, including Intel LGA 1700, 1200, 1156, 1155, 1151, 1150, 2011, 2066 and AMD AM4, AM3, AM3+, AM2, AM2+, FM2, FM2+.
- Quiet operation at 24.6 dBA.
Runner-Up - Dual-Fan Air CPU Cooler: Thermaltake TOUGHAIR 510
- This CPU cooler doesn't have any fancy LED lights, but the dual 120 mm fans do a great job of cooling LGA 1700 CPUs.
- Suppose you think this cooler will take up too much space. In that case, Thermaltake has a few single-fan TOUGHAIR variants which use different orientations.
- This CPU cooler has a 2000 RPM max speed for optimal cooling.
- 180-watt TDP (Thermal Design Power).
Before purchasing memory, review your motherboard specification to verify which speeds are supported. For example, if a DDR4 motherboard stated that it supports "DDR4 3400(O.C.) / 3333(O.C.) / 3300(O.C.) / 3200 / 3000," that would mean that it could support DDR4-3400, DDR4-3333, and DDR4-3300 with memory overclocking, and DDR4-3200 and DDR4-3000 at stock speeds. Motherboard specifications also indicate the maximum capacity per stick of RAM (DIMM) and across all slots.
Recommended Stock-Speed DDR5
- At an effective frequency of 5600 MHz, this memory hits the fastest DDR5 speed supported by Intel's Core i7 13700T CPU without overclocking.
- 32 GB provides ample memory for gaming and multitasking.
- Optimized for Intel XMP 3.0.
Recommended DDR5 for Overclockers
- This DDR5 memory is designed for overclocking to an effective frequency of 6000 MHz.
- Certified for Intel XMP 3.0.
Recommended Stock-Speed DDR4
- At an effective frequency of 3200 MHz, this memory hits the fastest DDR4 speed supported by Intel's Core i7 13700T CPU without overclocking.
- The low-profile form factor ensures that the heat spreaders don't get in the way of other devices, including your CPU heatsink.
Recommended DDR4 for Overclockers
- This DDR4 memory is designed for overclocking to an effective frequency of 3600 MHz.
- Supports XMP 2.0.
- Compact heat spreaders avoid conflicting with a CPU cooler.
- Choosing the Best RAM for Intel's Core i7-13700T CPU
- Choosing the Best Motherboard for Intel's Core i7-13700T
- How Many Cores Do Intel Core i7-13700T CPUs Have?
- What Is the TDP of the Core i7-13700T CPU?
You can find detailed 13700T specifications on Intel's site.
Want to brush up on other new technologies to consider when building a computer? Check out these articles:
- CPU Coolers:
- Graphics Cards:
- Power Supplies: