Software will be fully replaced with adaptive AI systems that shift form based on multimodal input & interaction.
Current AI models, especially small ones, are quite smooth-brain by themselves.
But, if we can refine them to a point where thinking AI systems can run on smart glasses and smartwatches in a usable, stable state, we can assume by then larger AI systems with higher compute are bound to be much more capable.
We can claim AGI milestone then.
And, the real race for superintelligence begins.
At this point Nvidia is just shooting themselves in the foot with hostility towards Linux - they are actively using Linux systems for DGX systems and the dependency on Linux is only going to grow internally.
They still run a server on your behalf to translate from Apple push notifications to Android ones. Somehow they were able to do it without compromising the end-to-end encryption too, which is awesome.
How I get my head around it is, a material forged under ambient pressure and room temperature may be superconducting (lose resistance) as either pressure goes up or temperature goes down (or both).. so if the material itself is forged under high pressure and high temperature, the room temperature normal to us is very low for the material (?).
Probably all materials are superconductors at some crazy pressure/temperature.
Seems like creating superconductor is to forge the material in high pressure + heat - then to cool it down. Now only need to find the perfect combination out of millions of possibilities. probably AI can help.
- Step 1: Prepare lanarkite, Pb2SO5, by mixing PbO and PbSO4 powders in a 1:1 molar ratio in an agate mortar with a pestle. Transfer the mixture to an alumina crucible and react it at 725 °C for 24 hours in a furnace. Pulverize the white product with the mortar.
- Step 2: Prepare copper phosphide, Cu3P, by mixing Cu and P powders in a 3:1 molar ratio. Transfer the mixture to a quartz tube and seal it under a vacuum of 10-5 Torr. React it at 550 °C for 48 hours in a furnace. Take out the dark gray ingot and pulverize it.
- Step 3: Mix lanarkite and copper phosphide powders in a 1:1 molar ratio in an agate mortar with a pestle. Transfer the mixture to a reaction tube and seal it under a vacuum of 10-5 Torr. React it at 925 °C for 10 hours in a furnace. Take out the dark gray ingot and shape it into thin cuboids for electrical measurements. Pulverize some of the ingot for other analyses.
These are the steps to synthesize the LK-99 material.
Current AI models, especially small ones, are quite smooth-brain by themselves.
But, if we can refine them to a point where thinking AI systems can run on smart glasses and smartwatches in a usable, stable state, we can assume by then larger AI systems with higher compute are bound to be much more capable.
We can claim AGI milestone then. And, the real race for superintelligence begins.