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- Dec 5, 2015
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Looks like Jensen was able to make something happen during his China Trip.
Looks like Jensen was able to make something happen during his China Trip.
Why would we allow our A.I. Technology to be given to China?
The argument is that the current restrictions may inadvertently push China to accelerate its own domestic chip industry.
Thanks.
So instead, we give ours to them?
Makes no sense.
Far be it from me to disagree with a luminary such as @Bucky, but yes, a critical issue is that these accelerators can be used to train models that accelerate the design of more efficient and performant ICs. Probably the single most promising application of “AI” is toward efficient scalable circuit design.Thanks.
So instead, we give ours to them?
Makes no sense.
Far be it from me to disagree with a luminary such as @Bucky, but yes, a critical issue is that these accelerators can be used to train models that accelerate the design of more efficient and performant ICs. Probably the single most promising application of “AI” is toward efficient scalable circuit design.
As someone now firmly working in this space, I can guarantee you that there is no wider adoption of generative AI tools than within organizations that are developing AI tools. Heck, I can generate test sets in an hour or two that previously would have taken a large team many months to construct. Humans are still required to QA inputs and outputs at each stage, but human screening is much faster than manual curated generation.IOW, using A.I. to advance A.I.
As someone now firmly working in this space, I can guarantee you that there is no wider adoption of generative AI tools than within organizations that are developing AI tools. Heck, I can generate test sets in an hour or two that previously would have taken a large team many months to construct. Humans are still required to QA inputs and outputs at each stage, but human screening is much faster than manual curated generation.
Hmm. This is very complicated to answer.You might be just the guy that can answer this question:
"Can A.I. evolve to self-producing, exceeding our capacities to understand or contain it?"
Now imagine if the reasoning itself was not a form of telemetry to shed light on the model's behavior. How would you know -- in the slightest -- how it got from my vague input to the output which was a cannonball trajectory problem? You wouldn't know where to start. So, the Understanding part of your question is already a grey area and we only understand the operation of these larger models to the degree that we internally instrument them.Defining a Physics Focus
I'm focusing my attention on identifying a suitable problem for the user, given their broad request. I've concluded that a physics problem presents a compelling opportunity for a clear and engaging solution. I'm moving forward with that perspective in mind.
Refining Problem Parameters
I've specified the kinematic problem as projectile motion and finalized the parameters. I'll need to calculate the maximum height, time of flight, and range for a cannonball. I've formulated a problem statement with clear initial conditions, including a launch angle of 30 degrees and an initial velocity of 150 m/s. I've also outlined my assumptions, such as neglecting air resistance and using a standard gravity value. My plan involves decomposing the velocity, calculating the maximum height, time of flight, and horizontal range, using standard kinematics formulas.
Finalizing the Solution Approach
I've formulated a problem statement involving projectile motion, complete with detailed assumptions and a step-by-step solution plan. The plan breaks down the initial velocity into components and utilizes standard kinematic equations to calculate the maximum height, time of flight, and horizontal range. This problem is ready to solve.
Developing the Solution
The kinematic problem statement is ready, and now I'm immersed in the calculations. I've decomposed the initial velocity and will determine the maximum height. I'm moving step-by-step through the plan, using the given values and standard kinematic formulas. My next step will be to calculate the time of flight, then the range.
Problem Solution in Motion
I'm now fully immersed in the problem solution. I've calculated the velocity components, maximum height, time of flight, and horizontal range, applying the derived formulas meticulously. The projectile's flight path is now fully defined, and I'll review my work to ensure accuracy before presenting the solution.
Calculating Projectile Properties
I'm deep in the solution phase. I've finished the calculations for the kinematic parameters (maximum height, time of flight, and range). I'm carefully reviewing all the steps and values to ensure accuracy before compiling the final solution. The problem statement and plan have been converted into precise numerical results.
Calculating the Final Answer
I've carefully calculated the initial velocity components, maximum height, time of flight, and the cannonball's range. Now, I will present these results in a concise format. The complete problem solution is ready to be delivered.
TACO strikes again
Thanks.
So instead, we give ours to them?
Makes no sense.
TACO strikes again
Why would we allow our A.I. Technology to be given to China?
TACO 2 Boobs strikes again.
Looks like Jensen was able to make something happen during his China Trip.
Uh huhThe argument is that the current restrictions may inadvertently push China to accelerate its own domestic chip industry.
The CEO of Nvidia thinks it's better if we sell Nvidia chips to more people, news at 11.This is the CEO's argument:
He argues that AI technology would be best built on an American technology stack:
China is also already using Nvidia's chips... illegally.
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