--- layout: default category: "OBS" title: "High Quality Recordings with NVIDIA NVENC (in OBS® Studio)" comments: true --- {% capture content %}With {% include inline/link.liquid url="https://streamfx.xaymar.com/" content="StreamFX" %}'s NVENC you can achieve the quality targets in one of two ways: Constant Quantization Parameters (CQP) or Variable Bitrate with Constant Quality (VBR-CQ). Both have their own advantages and downsides, and it depends entirely on your requirements which one you should use. Modern {% include inline/link.liquid url="https://developer.nvidia.com/video-encode-and-decode-gpu-support-matrix-new" content="NVIDIA GPUs (Pascal and newer)" %} also all support 4:4:4 and 4:2:0 encoding at most of the quality levels shown here.{% endcapture %}{% include blocks/paragraph.liquid content=content %} {% include blocks/heading.liquid level=2 content="Constant Quantization Parameter (CQP)" %} {% capture content %}Of the two methods available, CQP is by far the faster method, with hardly any noticable impact on other parts of the GPU. It also supports vastly higher framerates compared to the alternative method, thanks to NVIDIA optimizing their presets further. With the "Fastest (P1)" preset it is now possible to record 1920x1080 NV12 at nearly 460 FPS on an RTX 3080 or higher. Unfortunately none of my PCI-E SSDs, not even the PCI-E 4.0 from Samsung, managed to withstand the amount of data requested at once, so the exact upper limit is unknown.{% endcapture %}{% include blocks/paragraph.liquid content=content %} {% capture content %} Option Lossless Near Lossless Indistinguishable High Quality Acceptable Quality Preset Fastest (P1) Tune Lossless High Quality H264 Profile High 4:4:4 Predictive High 4:4:4 Predictive (when using I444)
High (when using NV12) Level Automatic H265 Profile Main Tier High Level Automatic Rate Control Options Mode Constant Quantization Parameter Multi-Pass Single Pass Look Ahead 0 frames Adaptive I-Frames Disabled Adaptive B-Frames Disabled Quantization Parameters I-Frame QP
P-Frame QP
B-Frame QP 0 0 to 4 5 to 10 11 to 16 17 to 22 Adaptive Quantization Spatial Adaptive Quantization Disabled Temporal Adaptive Quantization Disabled Other Options Maximum B-Frames Any B-Frame Reference Mode Any Zero Latency Default Weighted Prediction Default Non-reference P-Frames Default Reference Frames -1 frames Low Delay Key-Frame Scale -1 Key Frames Interval Type Frames Frames
Seconds Interval 1 frame 1 frame
0.5 seconds OBS Studio Advanced Video Settings Color Format I444 I444 or NV12 Color Space Identical to Input (sRGB on PC, Bt.709/sRGB for Console) Color Range Identical to Input (Full on PC, Partial on Console) {% endcapture %}{% include blocks/table.liquid content=content %} {% include blocks/heading.liquid level=2 content="Variable Bitrate with Constant Quality (VBR-CQ)" %} {% capture content %}The second method for recording is VBR-CQ, which is similar to x264's CRF but not a perfect match. While x264's CRF will improve with higher presets and lower CRF values, NVENC's VBR-CQ has a flat ceiling that simply can't be bypassed, no matter what settings are applied. Still, it has its uses for Indistinguishable, High quality and Acceptable Quality recordings. Performance wise it is far slower and has much more impact on the machine, so it should not be used for Single-PC setups.{% endcapture %}{% include blocks/paragraph.liquid content=content %} {% capture content %} Option Indistinguishable High Quality Acceptable Quality Preset Medium (P4) or slower Tune High Quality H264 Profile High 4:4:4 Predictive (when using I444)
High (when using NV12) Level Automatic H265 Profile Main Tier High Level Automatic Rate Control Options Mode Variable Bitrate Multi-Pass Two Pass at Quarter Resolution
or: Two Pass at Full Resolution Look Ahead 32 frames Adaptive I-Frames Enabled Adaptive B-Frames Enabled Limits Target Quality 1.00 to 10.99 11.00 to 17.99 17.00 to 22.99 Target Bitrate 0 kbit/s Maximum Bitrate 0 kbit/s Buffer Size 0 kbit Quantization Parameters Minimum QP
Maximum QP -1 I-Frame QP
P-Frame QP
B-Frame QP -1 Adaptive Quantization Spatial Adaptive Quantization Enabled Spatial Adaptive Quantization Strength 1 (Lowest) to 15 (Highest) Temporal Adaptive Quantization Enabled Other Options Maximum B-Frames As many as your GPU supports B-Frame Reference Mode Each if supported
Half if supported
None in any other case Zero Latency Default Weighted Prediction Default Non-reference P-Frames Enabled Reference Frames As many as your GPU supports Low Delay Key-Frame Scale -1 Key Frames Interval Type Seconds Interval 1.00 seconds or more OBS Studio Advanced Video Settings Color Format I444 or NV12 Color Space Identical to Input (sRGB on PC, Bt.709/sRGB for Console) Color Range Identical to Input (Full on PC, Partial on Console) {% endcapture %}{% include blocks/table.liquid content=content %} {% include blocks/heading.liquid level=2 content="Additional Information" %} {% capture list %}

Multi-Pass at Full Resolution is a new option, and has measurably increased quality in VBR-CQ. However, it is very expensive and should be the first option changed if performance is a problem.

Look Ahead in VBR-CQ can be freely adjusted as needed, as long as it is not lower than the number of B-Frames and Reference Frames.

Adaptive B-Frames is required for VBR-CQ, as B-Frames can both increase and decrease quality if used in the wrong place.

Stronger Spatial Adaptive Quantization will focus more bitrate towards visually complex areas, but may starve smoother areas of the bitrate it needs.

The Key Frames Interval can be freely adjusted for anything but Lossless, as I-only encoding is required to guarantee the least data loss.

The old presets were deprecated by NVIDIA and now map to the new P1-P7 presets, which come with massive performance or quality boosts. High Quality is now Medium (P4), while High Performance is closer to Faster (P2).

{% endcapture %}{% include blocks/list.liquid content=list %} {% capture content %}{% include inline/link.liquid url="../" content="Back to the Guide" %}{% endcapture %}{% include blocks/paragraph.liquid align="center" content=content %}