We had Claude.ai compose a review in the style of Papers We Love for an article from 2014. The goal was to see how well it predicted the current state of Observability 10 years on.
Category: Simz
The Past, Present, and Future will be Simulated
The mirroring of software execution behavior, as performed by Simz (online) and Stenos (offline), has the potential to be one of the most significant advances in software systems engineering. Its impact could be as significant as that of distributed computing.
Transcending Code, Containers, and Cloud
There is always tension between adaptability and structural stability in engineering and possibly life. We want our designs to be highly adaptable. With adaptation, our designs attempt to respond to change, sensed within the environment, intelligently with more change, though far more confined and possibly transient, at least initially. But there are limits to how far we can accelerate adaptation without putting incredible stress on the environment and the very system contained within.
Beyond Big Data – Mirrored Algorithmic Simulation
Today, the stimulus used to develop machine intelligence is sensory data, which is transferred between devices and the cloud – the same data that concerns many consumers. But what if instead of sending data related to such things as a thermostat’s temperature set point, what was transmitted mostly concerned the action taken by the embedded software machine – an episodic memory of the algorithm itself?
The Data Fog of Observability
The overemphasis on data instead of signals and states has created a great fog. This data fog leads to many organizations losing their way and overindulging in data exploration instead of exploiting acquired knowledge and understanding. This has come about with the community still somewhat unconcerned with a steering process such as monitoring or cybernetics.