Intel HD Graphics P4700
Intel graphics card specifications and benchmark scores
Intel HD Graphics P4700 Specifications
HD Graphics P4700 GPU Core
Shader units and compute resources
The Intel HD Graphics P4700 GPU core specifications define its raw processing power for graphics and compute workloads. Shading units (also called CUDA cores, stream processors, or execution units depending on manufacturer) handle the parallel calculations required for rendering. TMUs (Texture Mapping Units) process texture data, while ROPs (Render Output Units) handle final pixel output. Higher shader counts generally translate to better GPU benchmark performance, especially in demanding games and 3D applications.
HD Graphics P4700 Clock Speeds
GPU and memory frequencies
Clock speeds directly impact the HD Graphics P4700's performance in GPU benchmarks and real-world gaming. The base clock represents the minimum guaranteed frequency, while the boost clock indicates peak performance under optimal thermal conditions. Memory clock speed affects texture loading and frame buffer operations. The HD Graphics P4700 by Intel dynamically adjusts frequencies based on workload, temperature, and power limits to maximize performance while maintaining stability.
Intel's HD Graphics P4700 Memory
VRAM capacity and bandwidth
VRAM (Video RAM) is dedicated memory for storing textures, frame buffers, and shader data. The HD Graphics P4700's memory capacity determines how well it handles high-resolution textures and multiple displays. Memory bandwidth, measured in GB/s, affects how quickly data moves between the GPU and VRAM. Higher bandwidth improves performance in memory-intensive scenarios like 4K gaming. The memory bus width and type (GDDR6, GDDR6X, HBM) significantly influence overall GPU benchmark scores.
HD Graphics P4700 Theoretical Performance
Compute and fill rates
Theoretical performance metrics provide a baseline for comparing the Intel HD Graphics P4700 against other graphics cards. FP32 (single-precision) performance, measured in TFLOPS, indicates compute capability for gaming and general GPU workloads. FP64 (double-precision) matters for scientific computing. Pixel and texture fill rates determine how quickly the GPU can render complex scenes. While real-world GPU benchmark results depend on many factors, these specifications help predict relative performance levels.
Generation 7.5 Architecture & Process
Manufacturing and design details
The Intel HD Graphics P4700 is built on Intel's Generation 7.5 architecture, which defines how the GPU processes graphics and compute workloads. The manufacturing process node affects power efficiency, thermal characteristics, and maximum clock speeds. Smaller process nodes pack more transistors into the same die area, enabling higher performance per watt. Understanding the architecture helps predict how the HD Graphics P4700 will perform in GPU benchmarks compared to previous generations.
Intel's HD Graphics P4700 Power & Thermal
TDP and power requirements
Power specifications for the Intel HD Graphics P4700 determine PSU requirements and thermal management needs. TDP (Thermal Design Power) indicates the heat output under typical loads, guiding cooler selection. Power connector requirements ensure adequate power delivery for stable operation during demanding GPU benchmarks. The suggested PSU wattage accounts for the entire system, not just the graphics card. Efficient power delivery enables the HD Graphics P4700 to maintain boost clocks without throttling.
HD Graphics P4700 by Intel Physical & Connectivity
Dimensions and outputs
Physical dimensions of the Intel HD Graphics P4700 are critical for case compatibility. Card length, height, and slot width determine whether it fits in your chassis. The PCIe interface version affects bandwidth for communication with the CPU. Display outputs define monitor connectivity options, with modern cards supporting multiple high-resolution displays simultaneously. Verify these specifications against your case and motherboard before purchasing to ensure a proper fit.
Intel API Support
Graphics and compute APIs
API support determines which games and applications can fully utilize the Intel HD Graphics P4700. DirectX 12 Ultimate enables advanced features like ray tracing and variable rate shading. Vulkan provides cross-platform graphics capabilities with low-level hardware access. OpenGL remains important for professional applications and older games. CUDA (NVIDIA) and OpenCL enable GPU compute for video editing, 3D rendering, and scientific applications. Higher API versions unlock newer graphical features in GPU benchmarks and games.
HD Graphics P4700 Product Information
Release and pricing details
The Intel HD Graphics P4700 is manufactured by Intel as part of their graphics card lineup. Release date and launch pricing provide context for comparing GPU benchmark results with competing products from the same era. Understanding the product lifecycle helps evaluate whether the HD Graphics P4700 by Intel represents good value at current market prices. Predecessor and successor information aids in tracking generational improvements and planning future upgrades.
HD Graphics P4700 Benchmark Scores
No benchmark data available for this GPU.
About Intel HD Graphics P4700
Looking at the Intel HD Graphics P4700, you might wonder if its price really matches what it delivers. At a base clock of 350 MHz and a boost up to 1.3 GHz, the chip feels modest compared to dedicated GPUs, but the shared system memory keeps costs down. Because it uses the system's RAM, you avoid the premium price tag of a separate VRAM pool, which can be a sweet spot for budget‑conscious creators. Still, the 86 W TDP means you’ll need a decent power supply, so the overall spend includes more than just the GPU. Is the trade‑off between lower upfront cost and potential performance limits worth it for your workflow?
When you slot the Intel HD Graphics P4700 into a workstation, it lands squarely in the professional entry‑level segment. It’s aimed at CAD, DCC, and light gaming users who need reliable OpenGL support without breaking the bank. The 22 nm process and Generation 7.5 architecture place it behind today’s high‑end offerings, but it still holds its own in modest 3D tasks. If you’re comparing it to older Quadro models, you’ll notice the ring‑bus interface feels dated, yet it can still fit into older platforms. So, does its niche positioning align with what you’re trying to achieve, or should you look for a newer alternative?
- Verify that your motherboard supports a Ring Bus interface or a compatible adapter.
- Ensure you have at least 8 GB of system RAM to share with the GPU.
- Confirm your power supply can handle the 86 W TDP without strain.
- Look for drivers that support the Generation 7.5 architecture on your OS.
- Consider future upgrades; the shared memory design may limit later performance gains.
Thinking long term, the Intel HD Graphics P4700 raises questions about how long it will stay relevant. Built on a 22 nm process, it’s already a few generations behind the current 7 nm and 5 nm chips. Driver support from Intel has slowed, which could affect newer software compatibility down the line. However, for users whose workloads are stable like legacy CAD files or basic video editing it can still hold up for several years. Will the aging architecture outpace your needs, or can you stretch its usefulness with careful system maintenance?
Finally, let’s break down the system requirements for the Intel HD Graphics P4700 to see if your build can accommodate it. You’ll need a motherboard that can route the Ring Bus, typically found in older workstation platforms. A minimum of 8 GB DDR3/DDR4 system RAM is recommended, as the GPU will draw from shared memory. A power supply rated at 300 W or higher is safe, giving enough headroom for the 86 W draw plus other components. Don’t forget to install the latest Intel graphics drivers that support Generation 7.5 for optimal stability. If your rig checks these boxes, the card could be a cost‑effective upgrade; if not, you might be better off looking at newer integrated or discrete options. So, does this solution fit your current setup, or is it time to explore alternatives?
The NVIDIA Equivalent of HD Graphics P4700
Looking for a similar graphics card from NVIDIA? The NVIDIA GeForce GTX 770 offers comparable performance and features in the NVIDIA lineup.
Popular Intel HD Graphics P4700 Comparisons
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