Top Tweets for #PDF2Audio
This open-source AI tool was built in a day and it’s coming for Google’s NotebookLM
https://t.co/D04F5mguqE
✍️@MichaelFNunez via @VentureBeat
#AI #OpenSource #Podcast #PDF2Audio
💡"Open NotebookLM transforms PDF documents into personalized podcasts, mirroring a key feature of Google’s product but with a crucial distinction: it’s entirely open-source and free to use"
cc @Corix_JC @PerBBerggreen @sonu_monika @JagersbergKnut @ahier @EstelaMandela @sim010101 @Shi4Tech @BetaMoroney @avrohomg @mvollmer1 @maponi @sallyeaves @CEO_Aisoma @FernandaKellner @YvesMulkers @LouisColumbus @JoannMoretti @NeiraOsci @tlloydjones @smaksked @SusanHayes_ @theomitsa @TarakRindani @sulefati7 @Nicochan33 @Annerobinsons @Analytics_699 @rvp @Khulood_Almani @TheAIObserverX @drsharwood @FractaloidConvo @AndrewinContact @mikeflache @ChuckDBrooks @NathaliaLeHen @sminaev2015 @KanezaDiane @MHcommunicate @CurieuxExplorer @DanielleLargier @jeancayeux @chidambara09 @FrRonconi @amalmerzouk @RLDI_Lamy @richardkimphd
Animation is a little jittery... experimenting with #PDF2Audio podcast on a Pablo Neruda piece.
Flux Pro | Runway
Check out #PDF2Audio, an open-source alternative to the amazing #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a🎙️podcast,🎓lecture, 🔠discussions,💡short/long form summaries & more, with fine control for content & style, in many different languages🌐.
✅Multilingual podcast templates: You can generate content (from any source language) in #French, #German, #Spanish, #Portuguese, #Hindi, #Chinese & others.
✅If you want finer control about style, you can first generate a draft in English and then translate to any other language or style using the edit function (e.g.: say "Translate to ..." and then hit "Regenerate Audio..." ). You can also add your own templates for other languages or types of audio output you want in the source code.
✅The edit function allows you to precisely annotate the #podcast, #lecture, etc. transcript draft and/or provide overall feedback. For instance, you add comments in specific places in the transcript for the model to work on edits or add additional content, definitions, expansions, etc.
✅You can instruct the model to make overall changes, like change the tone, style, translate into another language, or others.
✅#PDF2Audio allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content. Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments.
Code & Hugging Face🤗Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space built using @Gradio
➡️Link to the repo & HF space in the reply. Thank you @knowsuchagency for the great work on #promptic and #pdf2podcast as well as @LiteLLM @_akhaliq for helping us with the @huggingface spaces version.
What you hear: The sample conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial, developed using by our #SciAgents model. Silk, a natural protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the #nanoscale level, the resulting material displays structural #coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
#Podcast #notebookml #materials #biology #bioinspired
We are excited to share #PDF2Audio, an open-source alternative to the #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a podcast, lecture, discussions, short/long form summaries & more, including the use of the amazing🍓o1 model (@sama @OpenAI: with stunning results!).
Code & HF Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space, all featuring @Gradio. Link to the repo & HF space in the reply.
Thank you @knowsuchagencyfor the great work on #promptic and #pdf2podcast, as well as @LiteLLM, & @_akhaliq for helping us with the @huggingface spaces version. We hope that this tool is useful for the community.
Background: Developing audio podcasts, lectures, & summaries from complex documents & data has become an exciting trend with impacts from research to education to business. Our open-source #PDF2Audio tool that allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content.
Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments, created using 🍓o1.
The conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial. Silk, a natural #nanostructured protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the nanoscale level, the resulting material displays structural coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
Key technical features include:
➡️Low-temperature processing to maintain the integrity of both silk and pigments while reducing energy consumption by 30%.
➡️Enhanced mechanical properties, with tensile strength up to 1.5 gigapascals.
➡️Potential self-healing capabilities and environmental responsiveness, allowing the material to repair minor damage and change color based on environmental conditions.
➡️UV protection and antimicrobial properties, which make this material ideal for smart textiles, eco-friendly coatings, and medical applications.
This development opens new doors for sustainable materials, offering an eco-friendly alternative to synthetic fibers with applications in various industries, from fashion to healthcare.
We are excited to share #PDF2Audio, an open-source alternative to the #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a podcast, lecture, discussions, short/long form summaries & more, including the use of the amazing🍓o1 model (@sama @OpenAI: with stunning results!).
Code & HF Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space, all featuring @Gradio. Link to the repo & HF space in the reply.
Thank you @knowsuchagencyfor the great work on #promptic and #pdf2podcast, as well as @LiteLLM, & @_akhaliq for helping us with the @huggingface spaces version. We hope that this tool is useful for the community.
Background: Developing audio podcasts, lectures, & summaries from complex documents & data has become an exciting trend with impacts from research to education to business. Our open-source #PDF2Audio tool that allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content.
Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments, created using 🍓o1.
The conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial. Silk, a natural #nanostructured protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the nanoscale level, the resulting material displays structural coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
Key technical features include:
➡️Low-temperature processing to maintain the integrity of both silk and pigments while reducing energy consumption by 30%.
➡️Enhanced mechanical properties, with tensile strength up to 1.5 gigapascals.
➡️Potential self-healing capabilities and environmental responsiveness, allowing the material to repair minor damage and change color based on environmental conditions.
➡️UV protection and antimicrobial properties, which make this material ideal for smart textiles, eco-friendly coatings, and medical applications.
This development opens new doors for sustainable materials, offering an eco-friendly alternative to synthetic fibers with applications in various industries, from fashion to healthcare.
os complace compartir #PDF2Audio , una alternativa de código abierto a la función #podcast de #NotebookLM con flexibilidad y resultados personalizados que puede controlar con precisión en la aplicación: puede hacer un podcast, una conferencia, debates, resúmenes cortos o largos .
We are excited to share #PDF2Audio, an open-source alternative to the #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a podcast, lecture, discussions, short/long form summaries & more, including the use of the amazing🍓o1 model (@sama @OpenAI: with stunning results!).
Code & HF Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space, all featuring @Gradio. Link to the repo & HF space in the reply.
Thank you @knowsuchagencyfor the great work on #promptic and #pdf2podcast, as well as @LiteLLM, & @_akhaliq for helping us with the @huggingface spaces version. We hope that this tool is useful for the community.
Background: Developing audio podcasts, lectures, & summaries from complex documents & data has become an exciting trend with impacts from research to education to business. Our open-source #PDF2Audio tool that allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content.
Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments, created using 🍓o1.
The conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial. Silk, a natural #nanostructured protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the nanoscale level, the resulting material displays structural coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
Key technical features include:
➡️Low-temperature processing to maintain the integrity of both silk and pigments while reducing energy consumption by 30%.
➡️Enhanced mechanical properties, with tensile strength up to 1.5 gigapascals.
➡️Potential self-healing capabilities and environmental responsiveness, allowing the material to repair minor damage and change color based on environmental conditions.
➡️UV protection and antimicrobial properties, which make this material ideal for smart textiles, eco-friendly coatings, and medical applications.
This development opens new doors for sustainable materials, offering an eco-friendly alternative to synthetic fibers with applications in various industries, from fashion to healthcare.
Google Colabで #PDF2Audio を試した。PDFファイルからPodcast向きの音声対談を生成してくれる。NBLMよりカスタマイズ性も高くてとてもよい🎙️
demo : https://t.co/63DPbfHjyy
Two updates in #PDF2Audio, upon popular request: Additional language support and advanced editing:
1) Upon popular request, we’ve added multilingual podcast templates: You can now generate content (from any source language) in #French, #German, #Spanish, #Portuguese, #Hindi, and #Chinese & others. If you want other languages, or finer control about style, you can also first generate a draft in English and then ask the model to translate to any other language or style using the edit function (e.g.: say "Translate to ..." and then hit "Regenerate Audio..." ). You can also add your own templates for other languages or types of audio output you want in the source code.
2) We upgraded the edit function where you can annotate the #podcast, #lecture, etc. transcript draft and/or provide overall feedback. For instance, you add comments in specific places in the transcript for the model to work on edits or add additional content, definitions, etc. By providing overall comments you can instruct the model to make certain changes, like change the tone, translate into another language, or others.
Works best with high-performance LLMs that follow directions well, e.g. GPT-4o or o1-preview!
We are excited to share #PDF2Audio, an open-source alternative to the #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a podcast, lecture, discussions, short/long form summaries & more, including the use of the amazing🍓o1 model (@sama @OpenAI: with stunning results!).
Code & HF Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space, all featuring @Gradio. Link to the repo & HF space in the reply.
Thank you @knowsuchagencyfor the great work on #promptic and #pdf2podcast, as well as @LiteLLM, & @_akhaliq for helping us with the @huggingface spaces version. We hope that this tool is useful for the community.
Background: Developing audio podcasts, lectures, & summaries from complex documents & data has become an exciting trend with impacts from research to education to business. Our open-source #PDF2Audio tool that allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content.
Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments, created using 🍓o1.
The conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial. Silk, a natural #nanostructured protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the nanoscale level, the resulting material displays structural coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
Key technical features include:
➡️Low-temperature processing to maintain the integrity of both silk and pigments while reducing energy consumption by 30%.
➡️Enhanced mechanical properties, with tensile strength up to 1.5 gigapascals.
➡️Potential self-healing capabilities and environmental responsiveness, allowing the material to repair minor damage and change color based on environmental conditions.
➡️UV protection and antimicrobial properties, which make this material ideal for smart textiles, eco-friendly coatings, and medical applications.
This development opens new doors for sustainable materials, offering an eco-friendly alternative to synthetic fibers with applications in various industries, from fashion to healthcare.
Hot on #NotebookLM's heels, there's already an open source alternative - and it's great: Just turned my latest blogpost into a podcast using this tool and am very happy with the results... Big thumbs up to #PDF2Audio! 👍
We are excited to share #PDF2Audio, an open-source alternative to the #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a podcast, lecture, discussions, short/long form summaries & more, including the use of the amazing🍓o1 model (@sama @OpenAI: with stunning results!).
Code & HF Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space, all featuring @Gradio. Link to the repo & HF space in the reply.
Thank you @knowsuchagencyfor the great work on #promptic and #pdf2podcast, as well as @LiteLLM, & @_akhaliq for helping us with the @huggingface spaces version. We hope that this tool is useful for the community.
Background: Developing audio podcasts, lectures, & summaries from complex documents & data has become an exciting trend with impacts from research to education to business. Our open-source #PDF2Audio tool that allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content.
Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments, created using 🍓o1.
The conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial. Silk, a natural #nanostructured protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the nanoscale level, the resulting material displays structural coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
Key technical features include:
➡️Low-temperature processing to maintain the integrity of both silk and pigments while reducing energy consumption by 30%.
➡️Enhanced mechanical properties, with tensile strength up to 1.5 gigapascals.
➡️Potential self-healing capabilities and environmental responsiveness, allowing the material to repair minor damage and change color based on environmental conditions.
➡️UV protection and antimicrobial properties, which make this material ideal for smart textiles, eco-friendly coatings, and medical applications.
This development opens new doors for sustainable materials, offering an eco-friendly alternative to synthetic fibers with applications in various industries, from fashion to healthcare.
Here's a podcast about my blogpost, created with @ProfBuehlerMIT's #PDF2Audio!
I'm extremely impressed by this open-source alternative to #NotebookLM. It's absolutely amazing how quickly it came out after Google's release. Open source FTW! 🚀
(Thx @iamRezaSayar for the note!🤗)
【#PDF2Audio】を試してみました!📚🎧
NotebookLMのポッドキャスト機能の代替となるオープンソースツールです。柔軟性が高く、出力をカスタマイズできるのが良い!!!
*ポッドキャスト、講義、ディスカッション、短い/長いサマリーなど、様々な形式に対応。
🔗https://t.co/oqGUw8hF15
We are excited to share #PDF2Audio, an open-source alternative to the #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a podcast, lecture, discussions, short/long form summaries & more, including the use of the amazing🍓o1 model (@sama @OpenAI: with stunning results!).
Code & HF Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space, all featuring @Gradio. Link to the repo & HF space in the reply.
Thank you @knowsuchagencyfor the great work on #promptic and #pdf2podcast, as well as @LiteLLM, & @_akhaliq for helping us with the @huggingface spaces version. We hope that this tool is useful for the community.
Background: Developing audio podcasts, lectures, & summaries from complex documents & data has become an exciting trend with impacts from research to education to business. Our open-source #PDF2Audio tool that allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content.
Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments, created using 🍓o1.
The conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial. Silk, a natural #nanostructured protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the nanoscale level, the resulting material displays structural coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
Key technical features include:
➡️Low-temperature processing to maintain the integrity of both silk and pigments while reducing energy consumption by 30%.
➡️Enhanced mechanical properties, with tensile strength up to 1.5 gigapascals.
➡️Potential self-healing capabilities and environmental responsiveness, allowing the material to repair minor damage and change color based on environmental conditions.
➡️UV protection and antimicrobial properties, which make this material ideal for smart textiles, eco-friendly coatings, and medical applications.
This development opens new doors for sustainable materials, offering an eco-friendly alternative to synthetic fibers with applications in various industries, from fashion to healthcare.
PDF转音频工具:PDF2Audio,NotebookLM的开源替代方案
可以PDF转播客、讲座、讨论、短/长文摘要等
支持上传多个 PDF 文件
支持不同指令模板,包括播客、讲座、摘要等
自定义文本生成和音频模型
支持不同声音选择
支持自定义音频长度、语气、风格等
github:https://t.co/eBB2mneZlI
#PDF2Audio #NotebookLM #PDF转播客
¡Ya está aquí #PDF2Audio! De pdf a podcast, la alternativa open source a #NotebookLLM de Google. Se puede usar tanto en local como en @huggingface , permite más control y audios más largos. Requiere API de OpenAI sólo en inglés. ¡Pruébalo! https://t.co/lx6r4Wg4gT
We are excited to share #PDF2Audio, an open-source alternative to the #podcast feature of #NotebookLM with flexibility & tailored outputs that you can precisely control in the app: You can make a podcast, lecture, discussions, short/long form summaries & more, including the use of the amazing🍓o1 model (@sama @OpenAI: with stunning results!).
Code & HF Space: You can find #PDF2Audio on GitHub for local use or try the Hugging Face space, all featuring @Gradio. Link to the repo & HF space in the reply.
Thank you @knowsuchagencyfor the great work on #promptic and #pdf2podcast, as well as @LiteLLM, & @_akhaliq for helping us with the @huggingface spaces version. We hope that this tool is useful for the community.
Background: Developing audio podcasts, lectures, & summaries from complex documents & data has become an exciting trend with impacts from research to education to business. Our open-source #PDF2Audio tool that allows users to utilize various models such as #o1 or local/open-source models, to develop deep-dives into technical content.
Example application - material design analysis: As an example to show what the system can do, check the video for a detailed 13-minute analysis of one of the designs created by #SciAgents merging silk & dandelion pigments, created using 🍓o1.
The conversation describes the new material, an integration of silk proteins & luteolin/dandelion pigments to create a new biomaterial. Silk, a natural #nanostructured protein-based fiber known for its strength & flexibility, is combined with dandelion pigments like luteolin, which offer unique optical properties. By merging these components at the nanoscale level, the resulting material displays structural coloration—vibrant, tunable colors created by the material's structure rather than synthetic dyes, and leverages silk's hierarchical organization as a scaffold for the pigments, ensuring uniform distribution and non-covalent bonding at the molecular level.
Key technical features include:
➡️Low-temperature processing to maintain the integrity of both silk and pigments while reducing energy consumption by 30%.
➡️Enhanced mechanical properties, with tensile strength up to 1.5 gigapascals.
➡️Potential self-healing capabilities and environmental responsiveness, allowing the material to repair minor damage and change color based on environmental conditions.
➡️UV protection and antimicrobial properties, which make this material ideal for smart textiles, eco-friendly coatings, and medical applications.
This development opens new doors for sustainable materials, offering an eco-friendly alternative to synthetic fibers with applications in various industries, from fashion to healthcare.
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