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⚡️ Place your ad here in three simple steps:
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🧠 Neuralink designed the implant to accomplish this by specifically counter-acting 3 fatal flaws of other BMI’s:
📈 Lack of accurate large-scale neuronal recording- Current BMI’s need to leverage neuronal count for quality of the recording or Vice/Versa.
📈 Tissue Damage/Scarring — Invasive BMI’s are abrasive to brain tissue.
📈 Scalability- BMI’s often aren’t scalable due to quality, practicality, cost, etc.
In the white paper Neuralink released explaining the implant, Neuralink’s implant as the scalable alternative; describing it as “An integrated brain-machine interface platform with thousands of channels”.
📈 Lack of accurate large-scale neuronal recording- Current BMI’s need to leverage neuronal count for quality of the recording or Vice/Versa.
📈 Tissue Damage/Scarring — Invasive BMI’s are abrasive to brain tissue.
📈 Scalability- BMI’s often aren’t scalable due to quality, practicality, cost, etc.
In the white paper Neuralink released explaining the implant, Neuralink’s implant as the scalable alternative; describing it as “An integrated brain-machine interface platform with thousands of channels”.
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“Will show neurons firing in real-time on August 28th. The matrix in the matrix,” Musk tweeted at the end of July. 🧠🔥
One of Neuralink’s inventions already revealed is a surgical robot for inserting electrodes into the brain. The devices are connected by flexible “threads” measuring between 4 and 6 μm or, about 1/3 the diameter of human hair, capable of transferring high volumes of data from the brain.
The design has been tested on at least 19 different animals with robots with around an 87% success rate, according to the venture’s presentation last year.
One of Neuralink’s inventions already revealed is a surgical robot for inserting electrodes into the brain. The devices are connected by flexible “threads” measuring between 4 and 6 μm or, about 1/3 the diameter of human hair, capable of transferring high volumes of data from the brain.
The design has been tested on at least 19 different animals with robots with around an 87% success rate, according to the venture’s presentation last year.
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The lack of scalability in BMI has mostly been caused by the fact that they’re inefficient to use. By either limited recording or impracticality. The practicality is often a bit of a cost/gain thing, as with most BMI’s in the past the prospect of having a huge piece of metal sticking out of your head that causes the same amount of symptoms as you were trying to avoid is a hard pitch to sell.
One of the most interesting things about this implant by far is the user-independence post-implementation. One of the main reasons the app was developed was to give users the ability to function after the surgery as independently as possible, again opposing the BMI norm.
Most BMI’s require years of retraining motor function in the presence of medical professionals after implementation. The hope is that with this app, the time spent relearning motor control can be a shorter process mostly done at home.
One of the most interesting things about this implant by far is the user-independence post-implementation. One of the main reasons the app was developed was to give users the ability to function after the surgery as independently as possible, again opposing the BMI norm.
Most BMI’s require years of retraining motor function in the presence of medical professionals after implementation. The hope is that with this app, the time spent relearning motor control can be a shorter process mostly done at home.
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Take a closer look at new surgical robot 🧠
Neuralink surgical robot can be separated into three main parts: The head, the body and base. The head of the robot is that helmet-like piece, which actually holds the head of the patient.
It also includes a guide for the surgical needle, as well as embedded cameras and sensors to map the patent’s brain. The intent of the design of this piece, which includes a mint-colored interior, is to give the robot “an anthropomorphic characteristic” that helps distract from the invasive nature of the procedure. There are also single-use disposable bags that line the interior of the helmet for sterile operation.
Neuralink surgical robot can be separated into three main parts: The head, the body and base. The head of the robot is that helmet-like piece, which actually holds the head of the patient.
It also includes a guide for the surgical needle, as well as embedded cameras and sensors to map the patent’s brain. The intent of the design of this piece, which includes a mint-colored interior, is to give the robot “an anthropomorphic characteristic” that helps distract from the invasive nature of the procedure. There are also single-use disposable bags that line the interior of the helmet for sterile operation.
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This robot has the ability to make the precise movements necessary to install the threads into your brain. It sounds like a simple task, but at the small scale that the threads are, it becomes a task that’s about as complicated as landing a space rocket safely back on Earth — something Musk is all too familiar with.
“These things are really, really small. You really can’t manipulate them with your hand. The threads are peeled off one at a time by the robot to place into the brain… So we had to build a surgical robot… The surgery is not possible without the robot.”
- Max Hodak, President of Neuralink
“These things are really, really small. You really can’t manipulate them with your hand. The threads are peeled off one at a time by the robot to place into the brain… So we had to build a surgical robot… The surgery is not possible without the robot.”
- Max Hodak, President of Neuralink
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🧠✨This flow of information between your brain and the outside world would be so easy it would feel the same as your thoughts do right now. It would be second nature to you, if not first.⬇️⬇️
Basically, a Neuralink brain chip interface is a communication system. It’s like having earpieces, but you don’t respond to the other line by speaking, but by thinking. The signals that go off your neurons are read by an interface that translates into data.
As you can see by now, there are limitless applications for such technology and one could only imagine what it cannot do.
Basically, a Neuralink brain chip interface is a communication system. It’s like having earpieces, but you don’t respond to the other line by speaking, but by thinking. The signals that go off your neurons are read by an interface that translates into data.
As you can see by now, there are limitless applications for such technology and one could only imagine what it cannot do.
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Big Moves for Neuralink! 🚀
Neuralink has just secured a whopping $280M in their Series D funding round, spearheaded by foundersfund. It’s a new dawn, a fresh chapter, and they’re all geared up for the challenges ahead!
Dream of making a difference in restoring vision and mobility? 🧠✨ Now’s your chance! Neuralink is on the lookout for passionate individuals to join their mission.
Neuralink has just secured a whopping $280M in their Series D funding round, spearheaded by foundersfund. It’s a new dawn, a fresh chapter, and they’re all geared up for the challenges ahead!
Dream of making a difference in restoring vision and mobility? 🧠✨ Now’s your chance! Neuralink is on the lookout for passionate individuals to join their mission.
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Freshly baked 🍪
The N1 implant falls into the category of brain-computer interfacing (BCI) devices. Sized at approximately 23 by 8 millimeters, this compact, coin-sized implant is designed to facilitate a brain-computer interface (BCI) when embedded within the human brain.
BCIs typically involve acquiring electrical signals from the brain, interpreting them, and potentially transforming them into actions. This technology can potentially be utilized in a wide range of applications, with the present focus being on health and medical uses.
The N1 implant falls into the category of brain-computer interfacing (BCI) devices. Sized at approximately 23 by 8 millimeters, this compact, coin-sized implant is designed to facilitate a brain-computer interface (BCI) when embedded within the human brain.
BCIs typically involve acquiring electrical signals from the brain, interpreting them, and potentially transforming them into actions. This technology can potentially be utilized in a wide range of applications, with the present focus being on health and medical uses.
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Neuralink is poised to revolutionize our world with technology that feels like it’s straight out of the Matrix!
Here’s a sneak peek at their R&D stimulation implant, meticulously mounted and ready for action. As it prepares for its final packaging, we’re reminded that what once seemed like sci-fi could soon enhance our reality.
Kung Fu skills download? Maybe not today, but the potential for neurological breakthroughs is just on the horizon.
Here’s a sneak peek at their R&D stimulation implant, meticulously mounted and ready for action. As it prepares for its final packaging, we’re reminded that what once seemed like sci-fi could soon enhance our reality.
Kung Fu skills download? Maybe not today, but the potential for neurological breakthroughs is just on the horizon.
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We use an artificial person to practice placing the Neuralink implant 👤
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This lifelike model allows our surgeons to refine their skills and ensure the utmost care during the delicate procedure. By meticulously perfecting every step, we are paving the way for a future where Neuralink can seamlessly integrate with the human brain, unlocking a world of possibilities.
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This lifelike model allows our surgeons to refine their skills and ensure the utmost care during the delicate procedure. By meticulously perfecting every step, we are paving the way for a future where Neuralink can seamlessly integrate with the human brain, unlocking a world of possibilities.
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Neuralink's dedication to perfecting their procedures is inspiring. In their engineering space, they simulate surgeries using proxies and all necessary hardware in a mock OR.
This hands-on approach allows for the swift testing and optimization of surgical enhancements. After all, a great surgery is a dull one, and repetition is the key to perfection. Hats off to Neuralink's commitment to excellence! 🎯
This hands-on approach allows for the swift testing and optimization of surgical enhancements. After all, a great surgery is a dull one, and repetition is the key to perfection. Hats off to Neuralink's commitment to excellence! 🎯
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Forwarded from OpenAI Chat GPT
Elon Musk and xAI have announced the Memphis Supercluster, claimed to be the world’s most powerful AI training cluster, utilizing 100,000 Nvidia H100 GPUs.
This system aims to develop Grok 3.0, potentially the world’s most advanced AI, by December 2024.
Meanwhile, Grok 2.0 is completed and will be released soon.
This system aims to develop Grok 3.0, potentially the world’s most advanced AI, by December 2024.
Meanwhile, Grok 2.0 is completed and will be released soon.
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Neuralink’s mind-mapping technology takes implant placement to the next level with its multi-scanning superpower! 🧠✨
MRI and CT scans team up to create a detailed map of your skull, while fMRI scans pinpoint the perfect spot for our electrodes to park. This precision targeting means our implant can tap into your brain’s coolest features without causing any unwanted side effects.
Neuralink is like the GPS for your brain, guiding us to the most epic destinations!
MRI and CT scans team up to create a detailed map of your skull, while fMRI scans pinpoint the perfect spot for our electrodes to park. This precision targeting means our implant can tap into your brain’s coolest features without causing any unwanted side effects.
Neuralink is like the GPS for your brain, guiding us to the most epic destinations!
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Forwarded from OpenAI Chat GPT
These courses are available on the Google Cloud Skills Boost platform and cater to a wide range of users, from beginners to those with some experience in AI.
Here are 9 FREE courses you don’t want to miss:
1) Introduction to Generative AI: A microlearning course that explains what generative AI is and its applications. (https://www.cloudskillsboost.google/course_templates/536)
2) Introduction to Large Language Models: This course covers the fundamentals of large language models (LLMs) and their use cases. (https://www.cloudskillsboost.google/course_templates/539)
3) Introduction to Responsible AI: Focuses on the principles of responsible AI and Google’s approach to ethical AI practices. (https://www.cloudskillsboost.google/course_templates/554)
4) Introduction to Generative AI Studio: An overview of the Generative AI Studio, which helps users prototype and customize generative AI models. (https://www.cloudskillsboost.google/course_templates/552)
5) Introduction to Image Generation: This course introduces diffusion models used in image generation. (https://www.cloudskillsboost.google/course_templates/541)
6) Encoder-Decoder Architecture: Explains the encoder-decoder architecture used in various machine learning tasks. (https://www.cloudskillsboost.google/course_templates/543)
7) Attention Mechanism: Covers how attention mechanisms improve neural network performance. (https://www.cloudskillsboost.google/course_templates/537)
8) Transformer Models and BERT: Introduces the Transformer architecture and its applications, particularly the BERT model. (https://www.cloudskillsboost.google/course_templates/538)
9) Create Image Captioning Models: Teaches how to develop models that generate captions for images. (https://www.cloudskillsboost.google/course_templates/542)
Here are 9 FREE courses you don’t want to miss:
1) Introduction to Generative AI: A microlearning course that explains what generative AI is and its applications. (https://www.cloudskillsboost.google/course_templates/536)
2) Introduction to Large Language Models: This course covers the fundamentals of large language models (LLMs) and their use cases. (https://www.cloudskillsboost.google/course_templates/539)
3) Introduction to Responsible AI: Focuses on the principles of responsible AI and Google’s approach to ethical AI practices. (https://www.cloudskillsboost.google/course_templates/554)
4) Introduction to Generative AI Studio: An overview of the Generative AI Studio, which helps users prototype and customize generative AI models. (https://www.cloudskillsboost.google/course_templates/552)
5) Introduction to Image Generation: This course introduces diffusion models used in image generation. (https://www.cloudskillsboost.google/course_templates/541)
6) Encoder-Decoder Architecture: Explains the encoder-decoder architecture used in various machine learning tasks. (https://www.cloudskillsboost.google/course_templates/543)
7) Attention Mechanism: Covers how attention mechanisms improve neural network performance. (https://www.cloudskillsboost.google/course_templates/537)
8) Transformer Models and BERT: Introduces the Transformer architecture and its applications, particularly the BERT model. (https://www.cloudskillsboost.google/course_templates/538)
9) Create Image Captioning Models: Teaches how to develop models that generate captions for images. (https://www.cloudskillsboost.google/course_templates/542)
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Forwarded from Earn Money
Why did AMD’s stock jump over 8% after hours yesterday?👇
You can thank none other than AI.
The company reported a strong Q2, beating analyst estimates and offering a positive outlook for the next quarter.
Here’s a quick breakdown of the key figures:
* Adjusted EPS: $0.69 vs. $0.68
* Revenue: $5.84B vs. $5.72B (+9% YoY)
* GAAP Gross Margin: 49% (+3 pp YoY)
AMD’s data center revenue, which includes sales of server CPUs and AI chips, soared 115% YoY to $2.8B.
Revenue from its MI300 chips, the company’s main AI chips that compete with Nvidia’s H100 series, hit $1B in sales for the quarter.
Data center revenue now makes up nearly 50% of AMD’s total revenue, and the company plans to release new AI chips annually.
CEO Lisa Su increased the 2024 revenue forecast for data center GPUs to over $4.5B, up from $4B.
AMD’s client segment, which covers CPUs and APUs for PCs, also saw a solid 49% growth to $1.5B, thanks to strong AMD Ryzen sales.
On the flip side, AMD’s gaming and embedded segments faced declines of 59% and 41% YoY, though both were better than expected amid a slower industry.
Looking ahead, AMD expects $6.7B in revenue for the current quarter, surpassing analyst estimates of $6.61B.
You can thank none other than AI.
The company reported a strong Q2, beating analyst estimates and offering a positive outlook for the next quarter.
Here’s a quick breakdown of the key figures:
* Adjusted EPS: $0.69 vs. $0.68
* Revenue: $5.84B vs. $5.72B (+9% YoY)
* GAAP Gross Margin: 49% (+3 pp YoY)
AMD’s data center revenue, which includes sales of server CPUs and AI chips, soared 115% YoY to $2.8B.
Revenue from its MI300 chips, the company’s main AI chips that compete with Nvidia’s H100 series, hit $1B in sales for the quarter.
Data center revenue now makes up nearly 50% of AMD’s total revenue, and the company plans to release new AI chips annually.
CEO Lisa Su increased the 2024 revenue forecast for data center GPUs to over $4.5B, up from $4B.
AMD’s client segment, which covers CPUs and APUs for PCs, also saw a solid 49% growth to $1.5B, thanks to strong AMD Ryzen sales.
On the flip side, AMD’s gaming and embedded segments faced declines of 59% and 41% YoY, though both were better than expected amid a slower industry.
Looking ahead, AMD expects $6.7B in revenue for the current quarter, surpassing analyst estimates of $6.61B.
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Forwarded from OpenAI Chat GPT
On the Lex Fridman Podcast, Elon Musk outlined his vision for Neuralink, aiming to enhance AI-human symbiosis by boosting communication bandwidth.
Musk highlighted the disparity in communication speeds between AI and humans, stating that AI could operate at terabits per second while humans communicate at much lower rates.
He noted that this gap could lead to AI becoming “bored” waiting for human responses.
Musk believes Neuralink brain implants would enable humans to “think and communicate at the speed of AI,” fostering closer integration of human and machine intelligence.
Musk highlighted the disparity in communication speeds between AI and humans, stating that AI could operate at terabits per second while humans communicate at much lower rates.
He noted that this gap could lead to AI becoming “bored” waiting for human responses.
Musk believes Neuralink brain implants would enable humans to “think and communicate at the speed of AI,” fostering closer integration of human and machine intelligence.
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