---
title: "Post-Processing"
metatags:
description: "Use SGLang Diffusion post-processing for frame interpolation and spatial upscaling after generation."
---
SGLang diffusion supports optional post-processing steps that run after
generation to improve temporal smoothness (frame interpolation) or spatial
resolution (upscaling). These steps are independent of the diffusion model and
can be combined in a single run.
When both are enabled, **frame interpolation runs first** (increasing the frame
count), then **upscaling runs on every frame** (increasing the spatial
resolution).
---
## Frame Interpolation (video only)
Frame interpolation synthesizes new frames between each pair of consecutive
generated frames, producing smoother motion without re-running the diffusion
model.
The `--frame-interpolation-exp` flag controls how many rounds of interpolation
to apply: each round inserts one new frame into every gap between adjacent
frames, so the output frame count follows the formula:
> **(N − 1) × 2^exp + 1**
>
> e.g. 5 original frames with `exp=1` → 4 gaps × 1 new frame + 5 originals = **9** frames;
> with `exp=2` → **17** frames.
### CLI Arguments
| Argument |
Description |
--enable-frame-interpolation |
Enable frame interpolation. Model weights are downloaded automatically on first use. |
--frame-interpolation-exp {EXP} |
Interpolation exponent — 1 = 2× temporal resolution, 2 = 4×, etc. (default: 1) |
--frame-interpolation-scale {SCALE} |
RIFE inference scale; use 0.5 for high-resolution inputs to save memory (default: 1.0) |
--frame-interpolation-model-path {PATH} |
Local directory or HuggingFace repo ID containing RIFE flownet.pkl weights (default: elfgum/RIFE-4.22.lite, downloaded automatically) |
### Supported Models
Frame interpolation uses the [RIFE](https://github.com/hzwer/Practical-RIFE)
(Real-Time Intermediate Flow Estimation) architecture. Only **RIFE 4.22.lite**
(`IFNet` with 4-scale `IFBlock` backbone) is supported. The network topology is
hard-coded, so custom weights provided via `--frame-interpolation-model-path`
must be a `flownet.pkl` checkpoint that is compatible with this architecture.
Other RIFE versions (e.g., older `v4.x` variants with different block counts)
or entirely different frame interpolation methods (FILM, AMT, etc.) are **not
supported**.
| Weight |
HuggingFace Repo |
Description |
| RIFE 4.22.lite *(default)* |
elfgum/RIFE-4.22.lite |
Lightweight model, downloaded automatically on first use |
### Example
Generate a 5-frame video and interpolate to 9 frames ((5 − 1) × 2¹ + 1 = 9):
```bash
sglang generate \
--model-path Wan-AI/Wan2.2-T2V-A14B-Diffusers \
--prompt "A dog running through a park" \
--num-frames 5 \
--enable-frame-interpolation \
--frame-interpolation-exp 1 \
--save-output
```
---
## Upscaling (image and video)
Upscaling increases the spatial resolution of generated images or video frames
using [Real-ESRGAN](https://github.com/xinntao/Real-ESRGAN). The model weights
are downloaded automatically on first use and cached for subsequent runs.
### CLI Arguments
| Argument |
Description |
--enable-upscaling |
Enable post-generation upscaling using Real-ESRGAN. |
--upscaling-scale {SCALE} |
Desired upscaling factor (default: 4). The 4× model is used internally; if a different scale is requested, a bicubic resize is applied after the network output. |
--upscaling-model-path {PATH} |
Local .pth file, HuggingFace repo ID, or repo_id:filename for Real-ESRGAN weights (default: ai-forever/Real-ESRGAN with RealESRGAN_x4.pth, downloaded automatically). Use the repo_id:filename format to specify a custom weight file from a HuggingFace repo (e.g. my-org/my-esrgan:weights.pth). |
### Supported Models
Upscaling supports two Real-ESRGAN network architectures. The correct
architecture is **auto-detected** from the checkpoint keys, so you only need to
point `--upscaling-model-path` at a valid `.pth` file:
| Architecture |
Example Weights |
Description |
| RRDBNet |
RealESRGAN_x4plus.pth |
Heavier model with higher quality; best for photos |
| SRVGGNetCompact |
RealESRGAN_x4.pth *(default)*, realesr-animevideov3.pth, realesr-general-x4v3.pth |
Lightweight model; faster inference, good for video |
The default weight file is
[`ai-forever/Real-ESRGAN`](https://huggingface.co/ai-forever/Real-ESRGAN) with
`RealESRGAN_x4.pth` (SRVGGNetCompact, 4× native scale).
Other super-resolution models (e.g., SwinIR, HAT, BSRGAN) are **not supported**
— only Real-ESRGAN checkpoints using the two architectures above are
compatible.
### Examples
Generate a 1024×1024 image and upscale to 4096×4096:
```bash
sglang generate \
--model-path black-forest-labs/FLUX.2-dev \
--prompt "A cat sitting on a windowsill" \
--output-size 1024x1024 \
--enable-upscaling \
--save-output
```
Generate a video and upscale each frame by 4×:
```bash
sglang generate \
--model-path Wan-AI/Wan2.1-T2V-1.3B-Diffusers \
--prompt "A curious raccoon" \
--enable-upscaling \
--upscaling-scale 4 \
--save-output
```
---
## Combining Frame Interpolation and Upscaling
Frame interpolation and upscaling can be combined in a single run.
Interpolation is applied first (increasing the frame count), then upscaling is
applied to every frame (increasing the spatial resolution).
Example — generate 5 frames, interpolate to 9 frames, and upscale each frame
by 4×:
```bash
sglang generate \
--model-path Wan-AI/Wan2.1-T2V-1.3B-Diffusers \
--prompt "A curious raccoon" \
--num-frames 5 \
--enable-frame-interpolation \
--frame-interpolation-exp 1 \
--enable-upscaling \
--upscaling-scale 4 \
--save-output
```