How to become a qualified Hardware Engineer
Objective: To understand and master the basic knowledge of qualified hardware engineers in detail based on actual experience and actual projects.
1) Basic Design Specifications
2) Guidance on CPU basic knowledge, architecture, performance, and selection
3) Motorola's PowerPC series of basic knowledge, performance details and Selection Guide
4) basic knowledge, architecture, performance, and selection of network processors (Intel, Motorola, and IBM)
5) Basic knowledge and performance of common bus
6) detailed performance introduction, design points and selection of various types of memory
7) Basic knowledge of common physical layer interface chips in Datacom and telecom, performance, design key points and selection
8) key points and highlights of common device Selection
9) detailed performance introduction, design points and Selection Guide of FPGA, CPLD, and EPLD
10) Introduction to VHDL and OpenGL
11) network Basics
12) Hardware research and development process of large communication equipment companies in China;
2. Guidance on the most popular EDA tools
Master and use the latest and most popular professional design tools in the industry
1) innoveda viewdraw, powerpcb, cam350
2) Cadence's orcad, Allegro, Spectra
3) MAX + plus ii of Altera
4) learn to use viewdraw, orcad, powerpcb, specctra, Allegro, cam350, Max + plus ii, Ise, and foundation tools;
5) Xilinx's foundation and ISE
I. Overall Hardware Design
Master the hardware design experience and ideas required for the overall Hardware Design
1) Product Requirement Analysis
2) Development Feasibility Analysis
3) system solution Survey
4) overall architecture, CPU selection, and bus type
5) Mainstream CPUs in data communication and Telecommunications: m68k series, powerpc860, powerpc8240, 8260 architecture, performance and comparison;
6) Overall hardware structure design and precautions;
7) Select the communication interface type
8) task breakdown
9) Minimum system design;
10) knowledge and specification of PCI bus;
11) how to avoid fatal errors during the overall design phase;
12) How can we reasonably break down tasks to get twice the result with half the effort?
13) project case: medium and low-end routers
Ii. hardware schematic design technology
Objective: To introduce the principle diagram design experience and the key points and essence of the project.
1) design experience and essence of the principles of mainstream CPUs (m68k, powerpc860, 0000, 8260, etc.) in China Telecom and data communication;
2) The essence of Intel's PC motherboard schematic design
3) network processor Principle Design Experience and essence;
4) experience and essence of bus structure principle design;
5) experience and essence in designing the principle of memory system;
6) Principle Design Experience and essence of common physical layer interfaces in data communication and telecommunications;
7) Principle Design Experience and essence of watchdog commonly used in telecommunications and data communication equipment;
8) design experience and essence of the working principle of live plugging in telecommunication and data communication equipment systems;
9) experience and essence in designing crystal oscillator and clock system principles;
10) experience and essence of the schematic design of the PCI bus;
11) project case: medium and low-end routers
Iii. design of hardware PCB diagram
Objective: To reveal all the experience of PCB design through specific project cases, so that you can quickly become an excellent Hardware Engineer
1) high-speed CPU board PCB design experience and essence;
2) General PCB design highlights and highlights
3) The essence of Motorola's PowerPC series PCB design
4) The essence of Intel's PC motherboard PCB design
5) Experience in PCB design for PC boards, industrial computer boards, and telecommunications equipment boards;
6) PCB design specifications and work processes of well-known communication companies in China;
7) requirements on the production and processing processes in PCB design;
8) transmission line problems in High-Speed PCB design;
9) PCB design experience and essence of mainstream CPUs (PowerPC series) in the telecommunication and data communication fields;
10) PCB design experience and essence of general physical layer interfaces (M, Gigabit Ethernet, ATM, etc.) in the telecommunication and data communication fields;
11) network processor PCB design experience and essence;
12) the topological structure of the PCB step line is extremely important;
13) PCB design experience and essence of PCI step line;
14) experience and essence of PCB design for SDRAM and ddr sdram (125/133 MHz;
15) project case: Design of Middle-end router PCB
4. hardware debugging
Objective: To teach the hardware debugging and testing experience and key points with specific project cases
1) hardware debugging is equivalent to Black Box debugging. How can I quickly analyze and solve problems?
2) extensive experience in debugging;
3) how to accelerate the hardware debugging process
4) How to quickly solve hardware debugging problems
5) ce test requirements for Datacom terminal Devices
V. Joint debugging of software and hardware
1) How can we identify software errors?
2) how to conduct joint debugging with the software?
3) extensive experience in joint debugging;
Objective: To clarify the direction and position of career development, to truly understand the requirements of large enterprises for talents, and to clarify the direction of individual efforts in vocational skills.
1) career consulting and guidance
2) how to become an excellent hardware development engineer and obtain high salaries and higher vocational education?
3) difficulties and opportunities for hardware engineers
4) Excellent hardware engineer standards