Cracking Autosar Interview
Published 6/2023
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.95 GB | Duration: 8h 1m
Published 6/2023
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.95 GB | Duration: 8h 1m
AUTOSAR concepts and BSW Modules are covered
What you'll learn
Understanding of the Autosar Architecture and its benefits and its methodology
Overview of layered Autosar architecture
Understanding of Rte concepts
ECUM and BSWM modules of AUTOSAR
Understanding of Autosar Diagnostics (Dem, Dcm and CanTP modules, UDS and OBD protocols)
Undersatnding of NvM module
CAN Protocol
This is an evolving course, and more topics will be added based on feedback and queries
Requirements
Basic knowledege of AUTOSAR and intrest to learn.
Description
When I started working as a professional, I tried searching relevant contents and explanation on diagnostics but I was unable to find a structured course online, there were just huge documents and difficult to understand for a new person, so this led me to make this course so that others benefit from my experience.AUTOSAR is a very important topic in automotive industry. It is ubiquitous and its knowledge is a must. In today's market we have a huge demand for professionals with Autosar knowledge.I have designed this course for individuals who want to learn about autosar and also for those who are preparing for interviews. I have tried to cover the important topics and modules in this course. I will keep updating the course with more topics based on your feedback and queries. Interview questions for Embedded C is in progress and will be updated soon.In this course below topics is covered keeping interview process in mind:Autosar concept, use case and methodology- BSW Modules: DCM, Dem, BSWM, ECUM, Nvm- Rte Module- UDS, CAN and OBD protocolsAfter taking this course you will be confident to ace the interviews.Feel free to reach me on LinkedIn for more information on course.Happy learning and all the best!!
Overview
Section 1: Introduction
Lecture 1 Introduction
Section 2: AUTOSAR Basics
Lecture 2 Autosar Introduction
Lecture 3 Autosar Layered Architecture
Lecture 4 Configuration Classes and Interfaces in Autosar
Lecture 5 AUTOSAR Methodology
Lecture 6 Conformance Classes in AUTOSAR
Lecture 7 AUTOSAR Use case
Lecture 8 Migration Strategies
Section 3: Rte
Lecture 9 Rte Entities - SWC, Composition, Ports
Lecture 10 Connector
Lecture 11 Internal Beaviour- Runnables
Lecture 12 Rte Overview
Lecture 13 Sender Receiver Interface
Lecture 14 Queued and Non Queued SR communication
Lecture 15 Implicit vs Explicit communication
Lecture 16 Client - Server Interface
Lecture 17 Communication between SWC and BSW
Lecture 18 Intra & Inter ECU Communication
Lecture 19 Rte Generation
Section 4: Startup and Shutdown Sequence
Lecture 20 Starup Sequence
Lecture 21 Shutdown Sequence
Section 5: ECUM Module
Lecture 22 ECUM Introduction and Fixed ECUM
Lecture 23 Flexible EcuM states
Lecture 24 Start up phase
Lecture 25 Shutdown Phase
Lecture 26 Shutdown Targets
Lecture 27 UP Phase
Lecture 28 Sleep Phase
Lecture 29 Mode Handling
Section 6: BSWM Module
Lecture 30 Introduction
Lecture 31 Mode user and Mode Manager
Lecture 32 Mode Arbitration
Lecture 33 Immeditae and Deffered Operation
Lecture 34 Arbitration after Initialisation
Lecture 35 Mode Control
Lecture 36 Configuration
Lecture 37 Rules Config
Lecture 38 Mode Control Config
Section 7: Diagnostics In Autosar
Lecture 39 Introduction to Diagnostics and Dem Module
Lecture 40 Events & DTC
Lecture 41 Operation cycle and event status Byte
Lecture 42 Status bit Transitions
Lecture 43 Debouncing and event processing
Lecture 44 Event Processing and storage
Lecture 45 Event Data, Healing & Aging
Lecture 46 Aging
Lecture 47 Startup Behaviour of Dem
Lecture 48 Dem Configuration
Lecture 49 DCM Module Introduction
Lecture 50 DCM Location in BSW
Lecture 51 DCM Interaction with other modules
Lecture 52 Submodules of DCM
Lecture 53 DSL Functionality
Lecture 54 DSD Functionality -1
Lecture 55 DSD Functionality - 2
Lecture 56 DSP Functionality
Lecture 57 SubModules Interactions
Lecture 58 Physical and Functional
Lecture 59 DCM Timers
Lecture 60 DCM Config
Lecture 61 DSL config
Lecture 62 Service table config
Lecture 63 DSD config
Section 8: CAN TP
Lecture 64 CanTP Overview
Section 9: UDS Protocol
Lecture 65 UDS Intro
Lecture 66 Use Cases
Lecture 67 Request & Response frame format
Lecture 68 0x10 service
Lecture 69 0x27 service
Lecture 70 0x3e service
Lecture 71 0x22 and 0x2e service
Lecture 72 0x19 service
Lecture 73 0x14 service
Lecture 74 0x31
Lecture 75 0x28 and 0x11 service
Lecture 76 Bootloader Services
Lecture 77 NRC Part 1
Lecture 78 NRC Part 2
Lecture 79 NRC Part 3
Lecture 80 NRC Part 4
Lecture 81 Canoe_Config_UDS
Section 10: OBD Services
Lecture 82 OBD
Lecture 83 OBD System
Lecture 84 OBD I vs OBD II
Lecture 85 Mode 1
Lecture 86 PID Example
Lecture 87 Mode 2
Lecture 88 Mode 3
Lecture 89 Mode 4
Lecture 90 Mode 6
Lecture 91 Mode 7
Lecture 92 Mode 8
Lecture 93 Mode 9
Lecture 94 Mode A
Section 11: NvM
Lecture 95 Nvm Introduction
Lecture 96 Memory Stack Introduction
Lecture 97 NvM Interaction with other Modules
Lecture 98 Flow of Read and Write Instructions
Lecture 99 Basic Storage Blocks
Lecture 100 Adminstration Block
Lecture 101 Block Management Types
Lecture 102 NvM Initialisation
Lecture 103 NvM Shutdown
Lecture 104 States of RAM Block
Lecture 105 More topic on NvM
Lecture 106 Implicit and explicit synchronisation
Lecture 107 Accessing Nvm via Rte
Lecture 108 Nvm Configuration part 1
Lecture 109 NvM Config part 2
Section 12: CAN Protocol
Lecture 110 CAN Introduction
Lecture 111 CAN Frame and Arbitration
Lecture 112 Data Frame
Lecture 113 Bus Idle , Transmitter & Receiver Node
Lecture 114 Broadcasting Frame
Lecture 115 Arbitration process
Lecture 116 BIT Timing
Lecture 117 BIT Stuffing
Lecture 118 Error Handling in CAN
Lecture 119 Error & Overload Frame
Lecture 120 CAN Physical Layer
Lecture 121 CAN TP Module
Section 13: Thank You
Lecture 122 Thanks
Automotive Professionals