The invention of the internet

The miniaturization of transistors

The development of software

The use of renewable energy

Lack of innovation in software

Limited software capabilities due to hardware constraints

Decreased interest in technology

Increased cost of devices

Insufficient investment in technology

Complexity of the manufacturing process

Decreasing interest in computing

Lack of demand for smaller devices

By using larger transistors

By mimicking natural processes at the nanoscale

By increasing the number of transistors

By reducing the cost of silicon

A type of silicon wafer

A material consisting of two polymer chains that repel each other

A new type of transistor

A software algorithm for pattern recognition

High cost of materials

Achieving perfect alignment to avoid defects

Lack of skilled engineers

Limited availability of resources

Increased size of transistors

Decreased demand for electronic devices

Reduced need for software updates

Cost-effective miniaturization of transistors

By increasing the size of transistors

By reducing the need for silicon

By simplifying the software development process

By naturally forming periodic structures

They require less energy to produce

They are cheaper than traditional materials

They can form complex structures without external guidance

They are easier to dispose of

A decline in the digital revolution

A halt in computing advancements

Continued miniaturization and expansion of computing

Increased cost of electronic devices