The best answer provided is A, although it is important to note that the question is somewhat misleading because it asks about motherboard selection but provides mostly incorrect or irrelevant motherboard-related options.
For high-performance workloads such as video editing and virtual reality (VR) using an Intel Core i9 processor and multiple graphics cards (multi-GPU setup), system design considerations include high power consumption and significant heat output. In the CompTIA A+ Core 1 220-1201 objectives under hardware planning and troubleshooting, high-performance CPUs and multiple GPUs require adequate thermal management solutions, including advanced cooling systems (air or liquid cooling) to ensure system stability and prevent thermal throttling.
Why A is the best answer:
Proper cooling is essential for maintaining performance under sustained load (video rendering, VR workloads).
While not strictly a motherboard feature, cooling is a critical system requirement for such a build.
Why the other options are incorrect:
B. Use DDR3 RAM for increased compatibility
Incorrect because modern Intel Core i9 platforms use DDR4 or DDR5, not DDR3, which is obsolete and incompatible with current high-performance motherboards.
C. Verify there are two PCIe x1 slots for additional devices
Incorrect because PCIe x1 slots are used for low-bandwidth devices (sound cards, network cards), not graphics cards.
Multiple GPUs require PCIe x16 slots, not x1.
D. Select a motherboard with integrated graphics to support video output
Incorrect because high-performance systems with discrete GPUs rely on those GPUs for rendering. Integrated graphics are unnecessary and sometimes disabled when a dedicated GPU is installed.
Exam Insight (CompTIA A+ perspective):
In real-world A+ Core 1 scenarios, the correct motherboard selection for this requirement would focus on:
Compatible socket for Intel Core i9
Support for modern RAM (DDR4/DDR5)
Adequate chipset and power delivery (VRM design)
Proper cooling solution for thermal management
However, since those correct motherboard specifications are not provided in the options, A is the only viable system-level requirement relevant to stability under high-performance load.
