API
If you're looking for an API, you can choose from your desired programming language.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
import requests
import base64
# Use this function to convert an image file from the filesystem to base64
def image_file_to_base64(image_path):
with open(image_path, 'rb') as f:
image_data = f.read()
return base64.b64encode(image_data).decode('utf-8')
# Use this function to fetch an image from a URL and convert it to base64
def image_url_to_base64(image_url):
response = requests.get(image_url)
image_data = response.content
return base64.b64encode(image_data).decode('utf-8')
api_key = "YOUR_API_KEY"
url = "https://api.segmind.com/v1/ramsrigouthamg-lora-dog-SSD-1B"
# Request payload
data = {
"prompt": "a photo of sks dog in snow",
"negative_prompt": "boring, poorly drawn, bad artist, (worst quality:1.4), simple background, uninspired, (bad quality:1.4), monochrome, low background contrast, background noise, duplicate, crowded, (nipples:1.2), big breasts",
"scheduler": "UniPC",
"num_inference_steps": 25,
"guidance_scale": 8,
"samples": 1,
"seed": 3426017487,
"img_width": 1024,
"img_height": 1024,
"base64": False,
"lora_scale": 1
}
headers = {'x-api-key': api_key}
response = requests.post(url, json=data, headers=headers)
print(response.content) # The response is the generated imageAttributes
Prompt to render
Prompts to exclude, eg. 'bad anatomy, bad hands, missing fingers'
Type of scheduler.
Allowed values:
Number of denoising steps.
min : 20,
max : 100
Scale for classifier-free guidance
min : 0.1,
max : 25
Number of samples to generate.
min : 1,
max : 4
Seed for image generation.
Width of the image.
Allowed values:
Height of the Image
Allowed values:
Base64 encoding of the output image.
Scale of the lora
To keep track of your credit usage, you can inspect the response headers of each API call. The x-remaining-credits property will indicate the number of remaining credits in your account. Ensure you monitor this value to avoid any disruptions in your API usage.
LoRA Dog SSD-1B
LoRA Dog SSD 1B specializes in generating photorealistic images of dogs. Based on the robust SSD 1B framework, this model is meticulously trained on dog images, ensuring each creation is as lifelike and authentic as possible.
Advantages
-
Photorealistic Dog Imagery: Expertly generates images of dogs that are strikingly realistic and detailed.
-
Breed-Specific Precision:Trained on a diverse range of dog breeds for nuanced and accurate representation.
-
Versatile Applications: Suitable for various uses, from pet photography enhancement to creative dog-themed art.
Use Cases
-
Pet Photography:Enhance the quality and detail of dog photographs.
-
Veterinary Education: Create detailed canine images for educational purposes.
-
Pet Care Industry: Ideal for creating visuals for pet care products and services.
-
Advertising and Marketing: Use in campaigns or materials featuring dogs.
Other Popular Models
sdxl-img2img
SDXL Img2Img is used for text-guided image-to-image translation. This model uses the weights from Stable Diffusion to generate new images from an input image using StableDiffusionImg2ImgPipeline from diffusers
sdxl-controlnet
SDXL ControlNet gives unprecedented control over text-to-image generation. SDXL ControlNet models Introduces the concept of conditioning inputs, which provide additional information to guide the image generation process
idm-vton
Best-in-class clothing virtual try on in the wild
codeformer
CodeFormer is a robust face restoration algorithm for old photos or AI-generated faces.
