The Science of Making Smaller Devices
As technology advances, the process of putting elements together shrinks. Humanity has a fascination with smaller devices that do more things. Take the phone in your pocket for example. That smartphone has more processing power and functionality than full-sized computer systems just 15 years ago. In order to make these devices smaller, a great deal of meticulous calculations and visual clarity play into development.
Fine Tuned Zooming
Thanks to the very technology that it helps to create, video measurement systems offer that fine tuning visual clarity that helps developers manufacture smaller electronics. As many of these devices have a one-micron optical resolution, you can get extreme close-ups of projects to work on everything from diode placement to micro circuit board layouts. When developing the latest in technological devices, these measurement systems allow for full-color precision construction to ensure working devices.
As time marches on, manufacturers are able to develop smaller data processing chips through discovery of new innovative techniques. With each improvement, the groundwork is laid out for enhancements. It is this micro-development that has led to processors using a single core to those with multiple cores processing different aspects of information simultaneously. As the connections within the chips get smaller and smaller, the core can shrink in size as well while offering faster computational cycles. The next time you take a look at a smartwatch, realize that its processor is ultimately smaller than that of a desktop or laptop computer system.
Increase in Difficulty
Making devices smaller has an inherent flaw – it makes troubleshooting problems much more complicated. It takes greater effort to find problems within a micro-device as the slightest imperfection in a single connection can cause the unit to misbehave or completely fail when in use. However, devices such as electronic x-ray microscopes are capable of getting visual acuity in order to troubleshoot the internal components of a microprocessor. The images provided from such devices are capable of helping to discover if an entire product line needs to be recalled through manufacturing imperfection or if the device failed by other means.
The technology of the 21st century can help technicians develop micro devices with pinpoint accuracy. Before, this saying was merely a figure of speech meaning that the level of accuracy was very good. In today’s world, pinpoint accuracy means just that – being able to zoom in on an object the size of a pin’s point.