{
"items": [
{
"item": "Investigate ways to double or triple performance every year at scale, not at chip level",
"done": false
},
{
"item": "Drive down the cost and energy consumption of computing by a factor of 2 or 3 every single year",
"done": false
},
{
"item": "Explore co-design techniques to modify algorithms and system architecture for better performance",
"done": false
},
{
"item": "Develop data center scale computing and treat the network as a compute fabric",
"done": false
},
{
"item": "Improve inference time scaling and reduce latency",
"done": false
},
{
"item": "Invest in full stack optimization and vertically integrated systems",
"done": false
},
{
"item": "Build and maintain software that can run on a large installed base and be compatible across different areas",
"done": false
},
{
"item": "Focus on creating a computing platform that developers can use consistently",
"done": false
},
{
"item": "Develop and maintain a strong ecosystem and productivity of software",
"done": false
},
{
"item": "Build and optimize data centers for customers",
"done": false
},
{
"item": "Create digital twins and simulate network configurations for easier setup and integration",
"done": false
},
{
"item": "Plan and prepare for the next generation of supercomputers and large-scale computing systems",
"done": false
},
{
"item": "Address the challenges of capital, energy, and supply chain for large-scale computing systems",
"done": false
},
{
"item": "Explore the use of AI in chip design and software engineering",
"done": false
},
{
"item": "Optimize chip design using AI engineers and explore a larger design space",
"done": false
},
{
"item": "Continue to focus on scientific applications and AI's application of science",
"done": false
},
{
"item": "Take larger bets and invest in new technologies and innovations",
"done": false
},
{
"item": "Maintain a strong company culture and focus on long-term goals despite rapid growth and changes in the market.",
"done": false
}
]
}