Wave Computing emerged in 2010 with a revolutionary vision: to transform artificial intelligence through dataflow computing, a paradigm that bypassed traditional CPU architectures by allowing data to self-organize and trigger computations in real time. Founded by Dr. Chris Nicol and backed by industry veterans like Dado Banatao, the company developed Dataflow Processing Units (DPUs) that claimed to process AI workloads up to 1000 times faster than GPUs, operating without a central clock or host processor. This ambitious technology attracted over $200 million in funding from investors including Samsung and Tallwood Venture Capital, positioning Wave as a potential leader in next-generation AI acceleration. In 2018, the company acquired MIPS Technologies, a major player in processor architecture, signaling a strategic pivot toward expanding its reach into edge computing. Wave further amplified its industry presence by launching the MIPS Open Initiative, offering the MIPS instruction set architecture for free to developers and academia in an effort to build an open ecosystem. However, just seven months later, the initiative was abruptly shut down, revealing underlying financial and technical strain. By April 2020, amid the global disruption of the COVID-19 pandemic, Wave Computing filed for Chapter 11 bankruptcy. Reports cited critical performance issues with its DPU technology, unmet commercialization timelines, and a lack of clear pricing or availability for its TritonAI 64 IP as key factors in its downfall. A minor but pivotal obstacle—Delaware withholding ’Good Standing Certificates’ due to $47,000 in unpaid franchise taxes—nearly derailed a $61 million bankruptcy sale to Tallwood Technology Partners, which ultimately succeeded. On March 1, 2021, the reorganized company emerged not as Wave Computing, but as MIPS, with CEO Sanjai Kohli leading the transition. The new MIPS shifted focus from Wave’s dataflow AI ambitions to leveraging its established processor IP, announcing that future designs would be based on the open-source RISC-V architecture—a strategic move aligning with industry trends toward open, customizable chip designs. This marked the effective end of Wave Computing’s original mission, as its pioneering dataflow technology was sidelined in favor of commercial viability. The transformation underscores the challenges of bringing disruptive hardware to market, especially in the face of entrenched competition like GPU-based AI and the immense engineering and financial hurdles of semiconductor development. While Wave’s core innovation did not achieve mainstream success, its journey highlights the volatility of deep-tech ventures, where visionary ideas must contend with execution, timing, and market readiness. The legacy of Wave lives on indirectly through the continued evolution of MIPS and the broader adoption of open architectures like RISC-V, which now power a new generation of customizable, efficient computing solutions. The story serves as a cautionary yet instructive tale for innovators: even with brilliant minds, bold ideas, and substantial capital, technological revolution requires more than vision—it demands deliverable, scalable, and timely execution. In the fast-moving world of AI and semiconductors, survival often means not just innovation, but adaptation.