Today’s digital world is built on distributed systems across every sector. This has created a battle between complexity and downtime on the one hand and reliability and automation on the other, which has given rise to self-healing systems. As the complex interconnectivity of these systems increases across networks, applications, endpoints and the cloud, reliability and the avoidance of downtime has become paramount.
Network and system downtime can translate into a loss of millions of dollars with over 60 percent of failures resulting in at least $100,000 in total losses, according to the Uptime Institute 2022 Annual Outage Analysis report. Service and operation disruptions can also increase customer loss and even regulatory fines.
A deeper dive shows a compelling case for robust system reliability via self-healing systems underpinned by artificial intelligence (AI) and machine learning (ML). While this can represent a transformative approach to system reliability, organizations must first understand how these self-healing systems work and their practical applications today and tomorrow.
A self-healing system automatically detects and fixes its glitches using AI/ML and automation. Unlike traditional systems relying on manual oversight and reactive solutions, these systems automatically enhance efficiency based on three primary phases:
In enterprises, these systems come in three tiers:
Embedded intelligence powers self-healing systems to harmonize both predictive and reactive responses, which enables the system to self-adjust without human intervention. Reactive Healing responds to issues, like relocating an app after an error, and works based on predefined system thresholds. Preventive Healing anticipates problems such as checking a service's health to sidestep errors using a mix of real-time and historical data. Although self-healing systems have been possible for a short time, they owe their progress to their foundation forged in the evolution of AI/ML.
AI and ML trace back to the 1950s with milestones like the Turing Test, designed to gauge a computer's human-like thinking, and Bellman's equation, foundational for many modern AI/ML algorithms. By the 1960s, John McCarthy introduced LISP, the first AI programming language, catalyzing expert system developments in the subsequent decades.
The 1990s marked a paradigm shift toward machine learning and data-centric methodologies, bolstered by burgeoning digital data and computational power. Innovations like neural networks and support vector machines emerged, enabling AI systems to learn and adapt. By the 2000s, AI branched into realms like natural language processing and robotics, heralding the contemporary AI epoch.
Over the past decade, AI and ML have transitioned from experimental technologies to driving business innovation. Big Data news outlet Datanami recently reported on the IDC forecast that spending on AI-centric systems is expected to surpass $300 billion in 2026. The global artificial intelligence market size is expected to reach over $1.8 billion by 2030, according to a recent Grand View Research report. That level of saturation shows how it’s past due for every organization to learn about the components of self-healing systems.
AI/ML offers many benefits to self-healing systems, such as learning from data, experience, and feedback for performance optimization over time. AI can tackle intricate problems traditionally hard to model and elevates system resilience by identifying and fixing faults and vulnerabilities. IT can also improve a system’s scalability, flexibility, and interoperability with other systems.
AI employs machine learning for tasks like classification and anomaly detection, deep learning, and a host of other decision-making functions. Self-healing systems are built on four pillars including:
Many self-healing systems currently use AIOps, which combine AI, ML, and automation to provide systemwide coverage across an enterprise. This has delivered many real-world uses for countless companies and sector, including:
Cloud-native applications that rely on container and microservices architectures use platforms like Kubernetes for self-healing in containerized setups. Software-defined networking, SQL and NoSQL database systems, and servers can integrate self-healing features, ensuring service continuity and data integrity.
While chatbots employing Natural Language Processing to understand intent, some developers have begun creating self-healing RPAs to autonomously fix errors and reduce human oversight. The evolution of self-healing systems and AI/ML may still be in the early stages, but they already can deliver many important business benefits.
Integrating AI/ML in self-healing systems can deliver countless benefits ranging from reduced downtime, cost, and IT time expenditure to improved security, regulatory compliance, system operation, service reliability, and customer experience. There are also many challenges to AI/ML in self-healing systems where systems learn from user behavior.
Machine autonomy can be tricky and lead to poor decisions and financial losses. Then there is the pronounced skills gap in the AI/ML space, which can require enormous investments in training and talent acquisition. Other challenges include complexity, proper system design/implementation and alignment of stakeholders, objectives, and systems.
Fully autonomous self-healing system have not arrived yet, but the goal is inching closer as countless businesses incorporate basic AI or ML tools into their operations. For now, most systems rely on rules-based automation, such as with traditional AIOps tools rather than authentic AI algorithms. These tools can recognize inconsistencies but cannot predict or adapt to new disruptions.
The limitations of current AI/ML and self-healing systems are not a roadblock to implementing systems that can deliver on the benefits. But designing and implementing systems that deliver will require following best practices to get the most of self-healing systems today.
Although self-healing systems can be applied to countless application uses across very industry and sector, they all have some basic commonalities when it comes to best practices. Using AI/ML and automation for successful self-healing system design starts with the following best practices:
The key is to design systems with future growth and implementation of advancements in the technology based on the specific ways that the business will use them.
The future of self-healing systems using automation and AI/ML can be seen in aspects like large language models (LLM) and generative AI that can improve through self-reflection. There are many ways LLMs, generative AI and Generative AIOps may play a part in the future of self-healing systems, such as self-healing code for developers, as discussed in this Stack Overflow blog. Self-healing endpoints are another future advancement that enables them to perform self-diagnostics and OS and app regeneration autonomously while providing real-time tracking of events.
The third wave of artificial intelligence (AI) where machines can interpret and understand the world like humans is still in the future, but likely not as far as many may think. This third wave will be built on AI and ML technologies which are proliferating today.
But even when dismissing the doomsaying of science fiction, the path to this new phase of AI/ML and ethics is a hotbed of debate. Everything from bias in AI decisions and fairness, to transparency in algorithms and errors (hallucinations) are real factors happening today. As organizations lean more about AI, they must lead with responsible forethought and adoption to make the most of these systems today.
AI/ML, automation and self-healing systems are a testament to technological evolution that is reshaping the perceptions of reliability and efficiency. As these systems proliferate across enterprises, they become a necessity for cost savings, efficiency, customer satisfaction, and operational uptime.
According to the IBM AI Global Adoption Index Report, 44 percent of organizations are working to embed AI into current applications and processes. This will only increase as more companies clearly see the transformative power of AI/ML and self-healing systems ushering in a new age of reliability.
Upcoming conferences on AI/ML can be found here and here along with conferences for developer like NVDIA GTC. Training courses here and many others can be found online as a place to start learning. As industries from finance and retail to healthcare and manufacturing become inextricably intertwined with technology, AI/ML-powered self-healing systems stand to improve and optimize the digital future.
Thank you for immersing yourself in this exploration of AI, ML, and self-healing systems. If you're inspired by the potential of these technologies and want to discuss their practical applications, integration strategies, or the future of self-healing systems, I invite you to connect with me on LinkedIn.
For a more comprehensive dialogue, feel free to get in touch with me here. Whether it's inquiries, deeper dives, or collaborative ideas, I'm eager to engage. Let's pioneer the next wave of technological innovation and reliability together. Looking forward to our connection!