Text-to-* Model Prompt Programming Task
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A Text-to-* Model Prompt Programming Task is a text-to-* prompt writing task that is a programming task that requires the creation of AI model text prompts (for a text-to-* model) to solve a prompt-based text-to-* model inference task.
- AKA: LLM Prompt Engineering, Prompt Design.
- Context:
- measure: improve their accuracy and relevance for a given task or application.
- It can (often) be the process of crafting and optimizing instructions or queries given to AI models to elicit the desired response or action.
- It can (often) apply a Prompt Engineering Technique.
- It can (often) follow a Prompt Engineering Process, such as an iterative trial and error process.
- ...
- It can range from being Text-to-Text Prompting, to being Text-to-Code Prompting, to being Text-to-Image Prompting, to being Text-to-Multi-Modal Prompting.
- It can range from being Manual Prompt Engineering (by a prompt engineer) to being Automated Prompt Engineering (by a prompt engineering system).
- It can range form being Zero-Shot Prompt Engineering (of zero-shot prompts) to being a Example-Including Prompt Engineering (of example-including prompts).
- ...
- It can involve creating prompts to extract specific information from AI models using clear and structured language.
- It can be supported by a Text-to-* Model Prompt Programming System.
- It can be associated with Text-to-* Model Prompt Optimization, where experimentation and refinement improve prompt efficiency.
- It can view prompts as "natural language code," functioning as high-level abstractions to guide model behavior.
- It can include crafting prompts with sample input-output examples to clarify model behavior.
- It can enable Meta-Prompts where prompts create or modify other prompts for scaling tasks.
- ...
- Example(s):
- Text-to-Text Prompt Engineering, such as refining prompts for summarization, translation, or text generation models.
- Text-to-Code Prompt Engineering, such as crafting prompts for code generation using models like Codex.
- Text-to-Image Prompt Engineering, such as designing prompts for image creation tasks using models like DALL-E.
- AI Metaprompt Engineering, such as creating prompts that generate other prompts for downstream tasks.
- Collaborative AI Prompting, such as interacting with the model to refine instructions iteratively.
- ...
- Counter-Example(s):
- Feature Engineering Task, which involves manually creating input features for models rather than prompt design.
- LLM Fine-Tuning Task, where models are retrained with new data rather than refined through prompt-based methods.
- Software Code Programming Task, where software code is written without utilizing prompt-based input.
- See: Prompt Tuning, Prompt-based Learning, Train of Thought, Few-Shot Learning, Transfer Learning, Chain of Thought, Tree of Thought.
References
2024
- (Wikipedia, 2024) ⇒ https://en.wikipedia.org/wiki/Prompt_engineering Retrieved:2024-9-19.
- Prompt engineering is the process of structuring an instruction that can be interpreted and understood by a generative AI model. A prompt is natural language text describing the task that an AI should perform:[1] a prompt for a text-to-text language model can be a query such as "what is Fermat's little theorem?", a command such as "write a poem about leaves falling", or a longer statement including context, instructions, and conversation history. Prompt engineering may involve phrasing a query, specifying a style,[2] providing relevant context or assigning a role to the AI such as "Act as a native French speaker". A prompt may include a few examples for a model to learn from, such as asking the model to complete "maison house, chat cat, chien " (the expected response being dog), an approach called few-shot learning. When communicating with a text-to-image or a text-to-audio model, a typical prompt is a description of a desired output such as "a high-quality photo of an astronaut riding a horse" or "Lo-fi slow BPM electro chill with organic samples". Prompting a text-to-image model may involve adding, removing, emphasizing and re-ordering words to achieve a desired subject, style,[3] layout, lighting, and aesthetic.
2024
- https://youtu.be/T9aRN5JkmL8
- NOTE: The interview discusses the evolving practice of prompt engineering, focusing on crafting effective instructions for AI models. Participants emphasize that prompt engineering involves clear communication, iterative experimentation, and a deep understanding of how models process input. They highlight how prompt engineering is akin to teaching, requiring anticipation of edge cases and refinement of tasks. While models are becoming better at understanding prompts, the conversation suggests that future interactions may shift toward collaborative efforts, where AI helps users clarify instructions. Overall, prompt engineering remains essential for extracting top performance, particularly in complex or high-stakes scenarios.
2023
- (Amatriain, 2024) ⇒ Xavier Amatriain. (2024). “Prompt Design and Engineering: Introduction and Advanced Methods.” In: arXiv preprint arXiv:2401.14423. doi:10.48550/arXiv.2401.14423
- QUOTE: Prompt design and engineering has become an important discipline in just the past few months. In this paper, we provide an introduction to the main concepts and design approaches. We also provide more advanced techniques all the way to those needed to design LLM-based agents. We finish by providing a list of existing tools for prompt engineering.
- NOTES:
- Prompt Engineering can elaborate on advanced prompt engineering techniques such as Chain of Thought (CoT), Tree of Thought (ToT), and Retrieval Augmented Generation (RAG) to overcome inherent limitations of LLMs like transient state, probabilistic nature, and outdated information.
- Prompt Engineering can discuss the integration of external knowledge through RAG to enrich LLM outputs, making them more informed and contextually relevant by dynamically incorporating real-time or domain-specific information.
- Prompt Engineering can survey a variety of tools and frameworks developed to aid prompt engineers, such as Langchain, Semantic Kernel, Guidance library, Nemo Guardrails, and LlamaIndex, highlighting their contributions to streamlining prompt engineering processes.
- Prompt Engineering can address the inherent challenges in prompt design, including the need to understand the AI model's capabilities, the context of its application, and the creative and domain knowledge required to craft effective prompts.
- Prompt Engineering can underscore the significance of continuous innovation in prompt engineering to keep pace with the rapid evolution of LLMs and generative AI, suggesting that emerging techniques like Automatic Prompt Engineering (APE) may become standard practices.
- Prompt Engineering can conclude by emphasizing the growing criticality of prompt design and engineering in the AI field, encouraging practitioners to engage in this burgeoning area to shape the future trajectory of LLMs and generative AI technologies.
- Prompt Engineering is highlighted as crucial for maximizing the potential of Large Language Models (LLMs), underpinning the development of effective Artificial Intelligence applications through the craft of prompts.
2023
- (Wikipedia, 2023) ⇒ https://en.wikipedia.org/wiki/Prompt_engineering Retrieved:2023-6-17.
- Prompt engineering is a concept in artificial intelligence, particularly natural language processing. In prompt engineering, the description of the task that the AI is supposed to accomplish is embedded in the input, e.g. as a question, instead of it being explicitly given. Prompt engineering typically works by converting one or more tasks to a prompt-based dataset and training a language model with what has been called "prompt-based learning" or just "prompt learning".
2023
- (ChatGPT-OpenAi, 2023) ⇒ https://chat.openai.com Retrieved:2023-4-23.
- Q: What is Text-to-* Model Prompt Engineering?
- A: Text-to-* model prompt engineering refers to the process of designing and refining prompts or inputs for text-based models such as natural language processing (NLP) models, text classification models, or text generation models. The goal of prompt engineering is to improve the performance of these models by providing them with more effective inputs or prompts.
In text-to-* models, the prompt is the initial text or query that is given to the model, which it uses to generate a response or output. The quality and specificity of the prompt can have a significant impact on the accuracy and relevance of the model's output.
Prompt engineering involves several steps, including:
- 1. Data preprocessing: This involves cleaning and organizing the data that will be used to create the prompts.
- 2. Prompt selection: This involves choosing the most appropriate prompt or query for the given task or application. This may involve analyzing the input data and selecting prompts that are most likely to elicit the desired response from the model.
- 3. Prompt refinement: This involves iteratively refining the prompt or query to improve its effectiveness. This may involve adjusting the wording, structure, or format of the prompt based on the model's performance.
- 4. Evaluation: This involves testing the performance of the model using the refined prompt and making further adjustments as needed.
- Overall, prompt engineering is a key component of developing and optimizing text-to-* models, as it can help to improve their accuracy, relevance, and effectiveness for a given task or application.
2023b
- (ChatGPT-OpenAi, 2023) ⇒ https://chat.openai.com
- ... Another term that more specifically reflects the AI and NLP-focused nature of prompt engineering is “prompt programming". Prompt programming refers to the process of creating prompts or queries that are used to elicit specific responses from NLP models. The term "programming" emphasizes the technical nature of the task and suggests a more structured approach to designing prompts tailored to the needs of specific NLP models. ...
2023c
- (Liu et al., 2023) ⇒ Pengfei Liu, Weizhe Yuan, Jinlan Fu, Zhengbao Jiang, Hiroaki Hayashi, and Graham Neubig. (2023). “Pre-train, Prompt, and Predict: A Systematic Survey of Prompting Methods in Natural Language Processing.” In: ACM Computing Surveys, 55(9).
- QUOTE: ... Now, as of this writing in 2021, we are in the middle of a second sea change, in which the “pre-train, fine-tune” procedure is replaced by one in which we dub “pre-train, prompt, and predict.” In this paradigm, instead of adapting pre-trained LMs to downstream tasks via objective engineering, downstream tasks are reformulated to look more like those solved during the original LM training with the help of a textual prompt. For example, when recognizing the emotion of a social media post, “I missed the bus today,” we may continue with a prompt “I felt so ” and ask the LM to fill the blank with an emotion-bearing word. Or if we choose the prompt “English: I missed the bus today. French: ”), then an LM may be able to fill in the blank with a French translation. In this way, by selecting the appropriate prompts we can manipulate the model behavior so that the pre-trained LM itself can be used to predict the desired output, sometimes even without any additional task-specific training (Table 1(d); e.g., Brown et al. [9], Petroni et al. [100], Radford et al. [105], Schick and Schütze [120]). The advantage of this method is that, given a suite of appropriate prompts, a single LM trained in an entirely unsupervised fashion can be used to solve a great number of tasks [9, 131]. However, as with most conceptually enticing prospects, there is a catch — this method introduces the necessity for prompt engineering, finding the most appropriate prompt to allow a LM to solve the task at hand. ...
2023d
- (Wikipedia, 2023) ⇒ https://en.wikipedia.org/wiki/prompt_engineering Retrieved:2023-2-26.
- Prompt engineering is a concept in artificial intelligence, particularly natural language processing (NLP). In prompt engineering, the description of the task is embedded in the input, e.g., as a question instead of it being implicitly given. ...
2022
- (Zhou et al., 2022) ⇒ Kaiyang Zhou, Jingkang Yang, Chen Change Loy, and Ziwei Liu. (2022). “Learning to Prompt for Vision-language Models.” International Journal of Computer Vision 130, no. 9
- ABSTRACT: Large pre-trained vision-language models like CLIP have shown great potential in learning representations that are transferable across a wide range of downstream tasks. Different from the traditional representation learning that is based mostly on discretized labels, vision-language pre-training aligns images and texts in a common feature space, which allows zero-shot transfer to a downstream task via prompting, i.e., classification weights are synthesized from natural language describing classes of interest. In this work, we show that a major challenge for deploying such models in practice is prompt engineering, which requires domain expertise and is extremely time-consuming—one needs to spend a significant amount of time on words tuning since a slight change in wording could have a huge impact on performance. Inspired by recent advances in prompt learning research in natural language processing (NLP), we propose Context Optimization (CoOp), a simple approach specifically for adapting CLIP-like vision-language models for downstream image recognition. Concretely, CoOp models a prompt’s context words with learnable vectors while the entire pre-trained parameters are kept fixed. To handle different image recognition tasks, we provide two implementations of CoOp: unified context and class-specific context. Through extensive experiments on 11 datasets, we demonstrate that CoOp requires as few as one or two shots to beat hand-crafted prompts with a decent margin and is able to gain significant improvements over prompt engineering with more shots, e.g., with 16 shots the average gain is around 15% (with the highest reaching over 45%). Despite being a learning-based approach, CoOp achieves superb domain generalization performance compared with the zero-shot model using hand-crafted prompts.