# Intel 8224 > Integrated circuit **Wikidata**: [Q1665566](https://www.wikidata.org/wiki/Q1665566) **Source**: https://4ort.xyz/entity/intel-8224 ## Summary The Intel 8224 is an integrated circuit developed by Intel, primarily functioning as a clock generator. It belongs to the class of semiconductor devices used in digital systems for timing signal generation and synchronization. ## Key Facts - **Developer**: Intel, founded on July 18, 1968 - **Category**: Integrated circuit model, specifically a clock generator - **Aliases**: 8224 - **Manufacturer**: Intel Corporation - **Industry Context**: Semiconductor industry - **Wikidata Classification**: Instance of integrated circuit model; subclass of clock generator and integrated circuit - **Related Models**: КР580ГФ24 (Soviet equivalent) - **Documentation Presence**: Present in Wikipedia languages including German (de), Russian (ru), and Wikimedia Commons ## FAQs ### Q: What is the Intel 8224? A: The Intel 8224 is an integrated circuit designed by Intel that functions as a clock generator. It provides synchronized timing signals essential for coordinating operations within digital electronic systems. ### Q: Who made the Intel 8224? A: The Intel 8224 was developed and manufactured by Intel Corporation, an American multinational technology company established in 1968. ### Q: Is there a Soviet counterpart to the Intel 8224? A: Yes, the КР580ГФ24 is a Soviet-era integrated circuit that serves a similar function to the Intel 8224, indicating technological parallels between Eastern and Western semiconductor developments during the Cold War era. ## Why It Matters The Intel 8224 holds historical significance as part of early computing infrastructure developed during the rise of microprocessor-based systems. As a clock generator, it played a critical role in ensuring proper timing and synchronization across components in computer architectures. Its development reflects Intel's foundational contributions to semiconductor innovation, particularly during the formative decades of personal computing. The existence of functional equivalents like the КР580ГФ24 also highlights global interest and parallel engineering efforts in advancing digital logic technologies under different geopolitical contexts. ## Notable For - Being classified as both an integrated circuit model and a specialized clock generator - Having a documented Soviet counterpart (КР580ГФ24), suggesting international replication or inspiration - Belonging to Intel’s legacy portfolio of support chips used alongside main processors - Maintaining presence in multilingual documentation including Wikimedia Commons, German, and Russian-language resources ## Body ### Overview The Intel 8224 is categorized as an integrated circuit with primary functionality centered around generating clock signals necessary for synchronizing internal processes in digital circuits. ### Technical Classification As defined through structured properties: - It is an instance of an *integrated circuit model* - Subclassifications include *clock generator* and broader *integrated circuit* This classification situates the 8224 among auxiliary semiconductor components crucial for enabling stable operation in complex electronic environments. ### Manufacturer Background Developed by **Intel**, which was incorporated on **July 18, 1968**, in the United States. Headquartered at **2200 Mission College Boulevard, Santa Clara, CA 95052-8119**, Intel has long been central to advancements in semiconductor design and manufacturing. ### Related Components A notable related device is the **КР580ГФ24**, a Soviet-made integrated circuit sharing comparable functionality. This cross-reference underscores shared technological objectives across competing national industries during the mid-to-late 20th century. ### Documentation & Accessibility The Intel 8224 maintains visibility through entries in multiple linguistic domains: - Wikipedia content exists in German (**de**) and Russian (**ru**) - A dedicated category on Wikimedia Commons supports archival access Such documentation helps preserve information about earlier generations of semiconductors vital to understanding evolution in digital hardware architecture.