VLSI RTL design and Verification Course in hyderabad
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VLSI (Very Large Scale Integration) RTL (Register Transfer Level) Design and Verification is the process of creating and testing digital circuit designs that are implemented at the transistor level. This process involves designing and verifying the functionality and timing of digital circuits that are implemented using hardware description languages (HDLs) like Verilog or VHDL.RTL Design involves creating a high-level behavioral description of the digital circuit that specifies its functionality, and then translating this description into a register transfer level (RTL) description. The RTL description is a low-level representation of the circuit that specifies the behavior of each individual gate and the connections between them. The RTL description is then used to synthesize the circuit into a gate-level netlist, which can be used to implement the design in hardware.
Placement Guarantee by allowing students pay after placement
- Semiconductor ecosystem
- VLSI design cycle - front end design flow & backend design flow
- What is ASIC & FPGA
- FPGA design flow & ASIC design and verification flow
- SoC example and industry updates
- Opportunities for VLSI engineers in India
- VLSI industry work profiles and roles
- How to be industry ready?
- Digital system design & applications
- Introduction
- What is digital & analog
- Introduction to digital system design
- Elements of digital logic, number system
- Code conversion, logic gates, K-maps, Boolean algebra, SOP, POS
- BCD, excess-3, gray code, ASCII, complements
- Combinational logic design: adders, subtractors, multipliers, dividers, comparators, multiplexing, demultiplexing, encoders, decoders, parity, checkers, data path, control path, ALU
- Sequential logic design: synchronous logic design, asynchronous logic design
- Latches
- Flip-flops
- Counters (asynchronous, synchronous, mod, Johnson, ring)
- Registers (SISO, SIPO, PISO, PIPO, USR, LFSR)
- FSM (Mealy and Moore – overlapping and non-overlapping)
- FIFO (asynchronous, synchronous)
- Memories (RAM, ROM)
- Introduction & Importance of HDL - HDL vs High Level Languages.
- Basic Language elements
- Design Methodologies - Top Down, Bottom Up
- Verilog data types
- Verilog Modelling Styles:
- Dataflow Modelling – continuous assignment statements
- Gate Level Modelling/Structural modelling
- Behavioural Modelling – Procedural blocks, procedural block statements – blocking and non-blocking assignments.
- Switch Level Modelling – switch primitives
- System Tasks
- Logic Gates, Half Adder, Full Adder, Half subtractor, Full subtractor.
- Multiplexer – 2:1, 4:1, 8:1 and other mux-oriented problems.
- Logic gates using Mux, Encoder, Decoder, Priority Encoder
- Stratified Event Queue or Timing Regions In-depth explanation with examples.
- Comparator, Seven Segment, Multipliers
- Combinational Circuits to be taught in Behavioral (IF, CASE) and Gate level
- Adders – RCA, Carry Look ahead adder, ALU, Subtractor, Division Circuits
- Sequential Circuits:
- Latch – Definition, usage, types, Coding and Simulation Result Explanation.
- Flipflop – Types (dff, tff, jkff), Coding and Simulation Result Explanation, Sync and Async FF. Difference between Latch and Flipflop, Why Nonblocking should be used for Sequential Circuits?
- Counter - Both Synchronous and Asynchronous, Mod Counters, Repeated Counters, Ring, Johnson Counters.
- FSM – Melay and Moore, Timescale, Parameter, Local Param, ifdef
- Shift registers – SISO,PISO,PIPO,PISO, Bi-directional Registers, Universal Shift Registers
- MEMORIES – RAM, ROM, Frequency Dividers, Self-checking testbenches.
- Define, setup, hold time, Types of delays to be used in coding. – Inter,Intra,Gate
- Sequential and Parallel execution blocks, generate blocks, Primitives - Try
- Randomization based testbenches, Task oriented TB.
- Synthesizable vs Non-Synthesizable Constructs explanation with examples, Loops.
- Race conditions in Verilog with Live examples
- ASIC Verification:
- Introduction & Importance
- Verification Methodologies
- System Verilog: Introduction to Verification and System Verilog.
- Data Types:
- Integer, Void
- String, Event
- User-defined Enumerations
- Class Arrays
- Fixed Size Arrays - Packed and Un-Packed
- Dynamic Array - Associative Array, Queues, structure, Union, typedef
- Procedural Statements and Flow Control:
- always_ff, always_comb, Blocking & Non-Blocking assignments
- Unique-I, Priority-If
- While, do-while, for each & enhanced for loop
- Repeat, Forever
- Break & Continue
- Named Blocks and Statement Labels
- Disable block and disable statements
- Event Control.
- Tasks and Functions:
- Tasks
- Functions
- Argument passing – Automatic, Static
- Processes:
- fork-join
- fork-join any
- fork-join none
- wait-fork
- disable-fork
- Classes:
- Classes
- This Keyword
- Constructors
- Static Class Properties & Methods
- Class Assignment
- Shallow Copy & Deep Copy
- Parameterized Classes
- Inheritance
- Overriding Class Members
- Super Keyword
- Polymorphism, Casting
- Data Hiding and Encapsulation
- Abstract Classes & Virtual Methods
- Class Scope Resolution Operator
- Extern methods
- Type def Classes.
- Randomization & Constraints:
- Constraint Blocks
- External Constraint Blocks
- Inheritance
- Inside operator
- Weighted distribution
- Implication and if-else and other constructs.
- IPCSemaphore - Mailbox - Event:
- Scheduling Semantics
- Program Block
- Interface
- Mod port
- Clocking Blocks.
- Assertion:
- Assertions
- SVA Building Blocks
- SVA Sequence
- Implication Operator
- Repetition Operator
- SVA Built in Methods
- Ended and Disable iff.
- Coverage:
- Coverage
- Functional Coverage – Types
- Coverage Options - Parameters and define.
- Project on System Verilog on Industry Standard Protocol with assertions and coverage along with tool explanation.
INTRODUCTION
- What is UVM?
- Why UVM?
- Overview of UVM Structure.
UVM Testbench Architecture
- Test Bench Structure
- Explanation of Test Bench
- UVM Objects and UVM Components
- UVM Sequence Item
- UVM Sequence and UVM Sequencer
- UVM Driver and UVM Monitor
- UVM Agent and UVM Scoreboard
- UVM Test and UVM Top.
UVM Phases
- Types of Phases
- Explanation of Phases
UVM TLM
- Analysis Port
- Usage of TLM Ports
- Declaration and Connection of Ports
Register Layer
- Introduction
- Register Model
- Register Environment
- Connection of Register Environment
UVM Reporting
- Reporting Methods
- Configurations
- Usecases
UVM Configurations
- Usage of Configurations
- Set Config Methods
UVM Factory
- Registration
- Factory Methods Explanation
UVM Callback
- Body Call back
- Usage and Importance of Call Backs
Lock Grab
- Examples
- Arbitration
- Importance of Arbitration
- Usage of Arbitration
- Sequencer Arbitration
- Virtual Sequence, Sequencer
- Need and Usage of Virtual Sequence and Sequencer.
Sequential and Parallel Sequence, Layered Sequences
- Overview and Implementation of Sequences.
UVM MACROS
- Macros Explanation in UVM.
UVM Project
- UVC Development for Industry standard protocol.
- Explanation of IP, VIP, SOC Level Testbench flow, Testplans, Verification plan.
Students will work on some of the below Design and Verification projects as part of training project. APB, AHB, AXI, SPI , UART, I2C, MEMORY CONTTROLLER, USB, UTMI, PCIE, ETHERNET, AES. Linux Operation System, Vim Editor.
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Affordable fee
Structure
We take 50% Fee after placement.
Student can pay in No cost EMI for 5 months.
Students are Eligible for Scholarships.
As per hiring companies requirement, as our trainers are working in industry they update course content time to time
OTHER INSTITUTE
High Fee.
No Fee after placement option
They ask to clear total fee within 1 month.
No scholarships provided.
Affordable fee
Structure
We take 50% Fee after placement.
Student can pay in No cost EMI for 5 months.
Students are Eligible for Scholarships.
As per hiring companies requirement, as our trainers are working in industry they update course content time to time
OTHER INSTITUTE
High Fee.
No Fee after placement option
They ask to clear total fee within 1 month.
No scholarships provided.
Why VLSIfirst is Highest Rated?
About Placement
We are a leading provider of VLSI training solutions, dedicated to empowering engineers with the skills and knowledge required to excel in the semiconductor industry.
Our Approach:
- Integrated Training: Blend of theory and practical application.
- Real-World Preparation: Equipping students for practical challenges
- Comprehensive Approach: Holistic training for robust skill development.
Success Stories Of Our Recently Placed Students In Various VLSI Companies
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Our work with clients has always been at the intersection of deep industry expertise and extensive capabilities.
Fee Structure:
Total fee: 1,00,000/- (+GST) Student need to pay 50,000 in Training Period
10000/- for Registration
10000/- after 1 st Month
10000/- after 2 nd Month
10000/- after 3 rd Month
10000/- after 4 th Month
Remaining 50,000 after getting placement (after receiving offer letter from company)
No, if you get placement through your sources then no need to pay 50% fee, however, you need to inform us that you want to try on your own as soon as you finish your training.
No, you will pay 50% fee after placement only.
No, we don’t offer any discounts in fee.
Yes, we provide 10% scholarship on fee for the students with 75% or 7.5 CGPA (in all the academics) in Bangalore branch
We provide offline classes 2 locations, Hyderabad and Bangalore
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Comprehensive RTL Design & Verification Course in Hyderabad
Hyderabad, also known as the City of Pearls, is a major technology hub in India, with a thriving semiconductor industry. With the increasing demand for professionals with expertise in RTL (Register Transfer Level) design and verification, aspirants show interest to get the right training. To help them, our training institute offers the RTL Design & Verification course in Hyderabad online.
The curriculum for the RTL Design & Verification job-oriented course in Hyderabad at our academy has been designed considering the future of trainees. Yes, the RTL Design & Verification curriculum in Hyderabad at our coaching institute includes everything that trainees should learn. As the RTL Design & Verification class in Hyderabad is delivered by an experienced trainer with industrial expertise, candidates can expect the best knowledge transfer.
At our academy, candidates can take up the pay after placement RTL Design & Verification training in Hyderabad to pay the course fee only after they get placed. It means that trainees can take the RTL Design & Verification Training in Hyderabad for free initially. After they complete the RTL Design & Verification Coaching in Hyderabad, they can become competent to land a high-paying job. Thereafter, they can pay the RTL Design & Verification price in Hyderabad as a course fee.
With our RTL Design & Verification training and placement in Hyderabad, our coaching institute has helped many candidates land high-paying jobs. Also, our RTL Design & Verification institute in Hyderabad conducts boot camps. By participating in the RTL Design & Verification bootcamp in Hyderabad, candidates can expect to gain the best knowledge. In turn, they can get the confidence to get the RTL Design & Verification Certification in Hyderabad. In the present competitive job market, this certificate has great value.
Hours
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