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VLSI & FPGA

10 resources

Level
Type

🎓Courses(2)

course👁️ 0

VLSI CAD Part I: Logic

A modern VLSI chip has a zillion parts -- logic, control, memory, interconnect, etc. How do we design these complex chips? Answer: CAD software tools. Learn how to build thesA modern VLSI chip is a remarkably complex beast: billions of transistors, millions of logic gates deployed for computation and control, big blocks of memory, embedded blocks of pre-designed functions designed by third parties (called “intellectual property” or IP blocks). How do people manage to design these complicated chips? Answer: a sequence of computer aided design (CAD) tools takes an abstract description of the chip, and refines it step-wise to a final design. This class focuses on the major design tools used in the creation of an Application Specific Integrated Circuit (ASIC) or System on Chip (SoC) design. Our focus in this first part of the course is on key Boolean logic representations that make it possible to synthesize, and to verify, the gate-level logic in these designs. This is the first step of the design chain, as we move from logic to layout. Our goal is for students to understand how the tools themselves work, at the level of their fundamental algorithms and data structures. Topics covered will include: Computational Boolean algebra, logic verification, and logic synthesis (2-level and multi-level). Recommended Background Programming experience (C, C++, Java, Python, etc.) and basic knowledge of data structures and algorithms (especially recursive algorithms). An understanding of basic digital design: Boolean algebra, Kmaps, gates and flip flops, finite state machine design. Linear algebra and calculus at the level of a junior or senior in engineering. Exposure to basic VLSI at an undergraduate level is nice -- but it’s not necessary. We will keep the course self-contained, but students with some VLSI will be able to skip some background material.e tools in this class.

advanced🇬🇧
course👁️ 0

Digital Systems: From Logic Gates to Processors

This course gives you a complete insight into the modern design of digital systems fundamentals from an eminently practical point of view. Unlike other more "classic" digital circuits courses, our interest focuses more on the system than on the electronics that support it. This approach will allow us to lay the foundation for the design of complex digital systems. You will learn a set of design methodologies and will use a set of (educational-oriented) computer-aided-design tools (CAD) that will allow you not only to design small and medium size circuits, but also to access to higher level courses covering so exciting topics as application specific integrated circuits (ASICs) design or computer architecture, to give just two examples. Course topics are complemented with the design of a simple processor, introduced as a transversal example of a complex digital system. This example will let you understand and feel comfortable with some fundamental computer architecture terms as the instruction set, microprograms and microinstructions. After completing this course you will be able to: * Design medium complexity digital systems. * Understand the description of digital systems using high-level languages such as VHDL. * Understand how computers operate at their most basic level (machine language).

beginner🇬🇧

📚Books(2)

book👁️ 0

CMOS VLSI Design

CMOS VLSI Design - A book resource

intermediate🇬🇧
book👁️ 0

Digital Integrated Circuits

Digital Integrated Circuits - A book resource

intermediate🇬🇧

🌐Websites(6)

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website👁️ 0

ZipCPU

Open source FPGA CPU designs and blogs

beginner🇬🇧
website👁️ 0

FPGA4Fun

Fun FPGA projects and tutorials

beginner🇬🇧
website👁️ 0

Nandland

Free FPGA tutorials, projects, and Go Board resources

beginner🇬🇧
website👁️ 0

opencores.org

OpenCores.org is a community-driven repository of open-source hardware IP cores for FPGA and ASIC design. It hosts Verilog/VHDL cores—such as CPUs, memory controllers, and peripherals—along with documentation and licensing details.

intermediate🇬🇧
website👁️ 0

zipcpu.com

ZipCPU.com is a resource hub for open-source CPU cores and FPGA design, providing Verilog/VHDL source code, design notes, and tutorials. It covers building, simulating, and integrating CPU cores and peripherals in FPGA projects.

intermediate🇬🇧
website👁️ 0

yosyshq.net

Official home of Yosys, the open-source Verilog RTL synthesis framework, offering documentation, tutorials, and examples to help FPGA/ASIC designers build and optimize circuits with Yosys and related tools.

intermediate🇬🇧

Frequently Asked Questions

What are the best free resources to learn VLSI & FPGA?

Dantes has curated 5 resources for VLSI & FPGA, including 2 courses, 3 websites. All resources are hand-picked for quality — no algorithmic filler. Browse the full list above to find the format that works best for you.

Is VLSI & FPGA hard to learn?

VLSI & FPGA is approachable at the beginner level — there are resources here specifically for those starting from scratch. As you progress, intermediate and advanced material is also available to take your skills further.

What types of VLSI & FPGA learning resources are available on Dantes?

For VLSI & FPGA, Dantes has curated 2 courses, 3 websites. Each resource type serves a different learning style: videos and YouTube for visual learners, books for depth, courses for structured progression, and websites for quick reference.

How does Dantes select VLSI & FPGA resources?

Dantes is an algorithm-free learning directory. Resources are hand-curated based on quality, accuracy, and usefulness — not engagement metrics or paid placements. The goal is to surface the best learning material for VLSI & FPGA, whether it's a free YouTube series, a classic textbook, or an open courseware from a top university.

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