BTA Certified Blockchain Developer - Ethereum
Last Update November 22, 2024
Total Questions : 102
Our Blockchain Developer - Ethereum CBDE exam questions and answers cover all the topics of the latest BTA Certified Blockchain Developer - Ethereum exam, See the topics listed below. We also provide Blockchain CBDE exam dumps with accurate exam content to help you prepare for the exam quickly and easily. Additionally, we offer a range of Blockchain CBDE resources to help you understand the topics covered in the exam, such as Blockchain Developer - Ethereum video tutorials, CBDE study guides, and CBDE practice exams. With these resources, you can develop a better understanding of the topics covered in the exam and be better prepared for success.
Exam Name | BTA Certified Blockchain Developer - Ethereum |
Exam Code | CBDE |
Actual Exam Duration | The duration of the Blockchain CBDE (Certified Blockchain Developer Expert) exam is 90 minutes. |
Expected no. of Questions in Actual Exam | 70 |
What exam is all about | The Blockchain Certified Data Engineer (CBDE) exam is a certification exam that tests the knowledge and skills of individuals in the field of blockchain technology. The exam covers various topics related to blockchain, including the basics of blockchain technology, smart contracts, consensus algorithms, cryptography, and decentralized applications. The exam is designed to assess the candidate's ability to design, develop, and implement blockchain-based solutions. Passing the CBDE exam demonstrates that the candidate has a deep understanding of blockchain technology and is capable of working with blockchain-based systems. |
Passing Score required | The passing score required in the Blockchain CBDE (Certified Blockchain Developer Expert) exam is 70%. This means that a candidate must score at least 70% or higher to pass the exam and earn the certification. The exam consists of 100 multiple-choice questions and has a time limit of 2 hours. The questions cover various topics related to blockchain technology, including blockchain architecture, smart contracts, consensus algorithms, and security. Candidates who pass the exam demonstrate a strong understanding of blockchain technology and its applications, making them valuable assets to organizations looking to implement blockchain solutions. |
Competency Level required | According to the BTA, the Certified Blockchain Developer Exam (CBDE) is designed for individuals who have a strong understanding of blockchain technology and its applications. The exam is intended for developers who have experience in programming languages such as Java, Python, and C++, and have a good understanding of data structures, algorithms, and cryptography. The CBDE exam covers topics such as blockchain architecture, smart contracts, consensus algorithms, security, and privacy. Candidates are expected to have a deep understanding of these topics and be able to apply their knowledge to real-world scenarios. In summary, the competency level required for the CBDE exam is high, and candidates are expected to have a strong understanding of blockchain technology and its applications, as well as experience in programming languages and related concepts. |
Questions Format | Based on the exam objectives and the certification provider's guidelines, the exam is expected to have multiple-choice questions, scenario-based questions, and questions that require the candidate to match concepts with their definitions. The exam may also include questions that require the candidate to analyze code snippets or diagrams related to blockchain technology. The questions are designed to test the candidate's knowledge and understanding of blockchain technology, its applications, and its underlying concepts. |
Delivery of Exam | According to the Blockchain Training Alliance, the CBDE exam is available in both online and in-person formats. The online exam can be taken remotely from anywhere with a stable internet connection, while the in-person exam is administered at a testing center. |
Language offered | Based on the exam objectives and topics covered, it is likely that the exam includes technical language related to blockchain technology, such as cryptography, consensus algorithms, smart contracts, decentralized applications, and distributed ledger technology. The exam may also include programming languages commonly used in blockchain development, such as Solidity, JavaScript, and Python. |
Cost of exam | You can visit the official website of the Blockchain Training Alliance to get the latest pricing information for the Certified Blockchain Developer Exam (CBDE). |
Target Audience | In general, the target audience for Blockchain CBDE certification may include:
|
Average Salary in Market | According to various sources, the average salary for a blockchain developer with CBDE certification can range from $80,000 to $150,000 per year, depending on the location, experience, and skills. It's important to note that the salary can vary significantly based on the company, industry, and demand for blockchain developers in the market. |
Testing Provider | You can visit the official website of the Blockchain Training Alliance (BTA) to register for the exam and find authorized training partners who can help you prepare for the exam. |
Recommended Experience | According to the Blockchain Training Alliance, the recommended experience for the Blockchain CBDE (Certified Blockchain Developer Engineer) exam includes: 1. At least one year of experience in software development 2. Familiarity with at least one programming language such as Java, Python, or C++ 3. Understanding of basic cryptography concepts 4. Knowledge of blockchain fundamentals, including distributed ledger technology, consensus algorithms, and smart contracts 5. Experience with blockchain platforms such as Ethereum, Hyperledger Fabric, or Corda 6. Familiarity with blockchain development tools such as Solidity, Truffle, or Remix. It is important to note that these are only recommendations, and individuals with different backgrounds and experiences may still be able to pass the exam with proper preparation and study. |
Prerequisite | According to the Blockchain Training Alliance, the prerequisites for the Certified Blockchain Developer Expert (CBDE) exam are: 1. At least one year of experience in software development 2. Familiarity with at least one programming language (such as Java, Python, or C++) 3. Understanding of basic data structures and algorithms 4. Knowledge of basic cryptography concepts 5. Familiarity with blockchain technology and its applications. It is also recommended to have completed the Certified Blockchain Developer (CBD) course or have equivalent knowledge and experience. |
Retirement (If Applicable) | it is recommended to check the official website of the Blockchain Training Alliance for the latest updates on the exam's retirement date. |
Certification Track (RoadMap): | The certification track or roadmap for the Blockchain CBDE (Certified Blockchain Developer Expert) exam is a structured path that individuals can follow to become certified in blockchain development. The roadmap typically includes the following steps: 1. Basic knowledge of blockchain technology and its applications 2. Understanding of blockchain architecture and design principles 3. Proficiency in programming languages such as Solidity, Java, and Python 4. Hands-on experience in developing blockchain applications 5. Knowledge of smart contract development and deployment 6. Understanding of blockchain security and privacy issues 7. Familiarity with blockchain platforms such as Ethereum, Hyperledger, and Corda The CBDE exam is designed to test an individual's knowledge and skills in these areas and certify them as a blockchain developer expert. The certification track or roadmap provides a clear path for individuals to follow to achieve this certification. |
Official Information | https://blockchaintrainingalliance.com/products/cbde |
Take Self-Assessment | Use Blockchain CBDE Practice Test to Assess your preparation - Save Time and Reduce Chances of Failure |
Section | Weight | Objectives |
---|---|---|
Objective 1: |
|
|
Objective 2: |
|
|
Objective 3: |
|
|
Objective 4: |
|
|
Objective 5: |
|
|
Objective 6: |
|
|
Objective 7: |
|