What is opaque?

This is a recommends products dialog
Top Suggestions
Starting at
View All >
Language
French
English
ไทย
German
繁體中文
Country
Hi
All
Sign In / Create Account
language Selector,${0} is Selected
Register & Shop at Lenovo Pro
Register at Education Store
Pro Tier Benefits
• Save up to an extra 20% on Think everyday pricing.
• Spend $15K, advance for FREE to Plus Tier with increased benefits.
Plus Tier Benefits
• Save up to an extra 25% on Think everyday pricing.
• Spend $50K, advance for FREE to Elite Tier with increased benefits.
Elite Tier Benefits
• Save up to an extra 30% on Think everyday pricing.
Reseller Benefits
• Access to Lenovo's full product portfolio
• Configure and Purchase at prices better than Lenovo.com
View All Details >
more to reach
PRO Plus
PRO Elite
Congratulations, you have reached Elite Status!
Pro for Business
Delete icon Remove icon Add icon Reload icon
TEMPORARILY UNAVAILABLE
DISCONTINUED
Temporary Unavailable
Cooming Soon!
. Additional units will be charged at the non-eCoupon price. Purchase additional now
We're sorry, the maximum quantity you are able to buy at this amazing eCoupon price is
Sign in or Create an Account to Save Your Cart!
Sign in or Create an Account to Join Rewards
View Cart
Your cart is empty! Don’t miss out on the latest products and savings — find your next favorite laptop, PC, or accessory today.
Remove
item(s) in cart
Some items in your cart are no longer available. Please visit cart for more details.
has been deleted
Please review your cart as items have changed.
of
Contains Add-ons
Subtotal
Proceed to Checkout
Yes
No
Popular Searches
What are you looking for today ?
Trending
Recent Searches
Hamburger Menu


What is opaque?

Opaque refers to something that is not transparent or clear. In the context of technology, it is often used to describe a situation where the inner workings or details of a system or process are not visible or easily understood.

What role does opaque cryptography play in securing sensitive information?

Opaque cryptography plays a crucial role in securing sensitive information by adding an extra layer of protection. By keeping the underlying algorithms and keys hidden, attackers face additional challenges in attempting to compromise the security measures. Opaque cryptography can help protect against attacks such as brute force, known-plaintext attacks, and key exposure.

How does opaque code protect against runtime analysis attacks?

Opaque code protects against runtime analysis attacks by obfuscating the code's behavior and making it difficult for attackers to analyze its runtime characteristics. Techniques like control flow obfuscation, dynamic code generation, and anti-analysis tricks can hinder the attacker's ability to understand and manipulate the code during runtime analysis.

Can opaque data structures enhance data confidentiality in database systems?

Yes, opaque data structures can enhance data confidentiality in database systems. By encrypting sensitive data and storing it in an opaque format, unauthorized users or administrators cannot access or decipher the data without proper decryption keys. This helps protect the confidentiality of the stored data in database systems.

Does opaque code impact the performance of software?

Opaque code can potentially impact the performance of software in certain scenarios. Code obfuscation techniques, which make code more opaque, can introduce additional processing overhead during runtime. This is because the obfuscated code needs to be deobfuscated or decrypted before execution, which can incur some computational cost.

How does opaque code protect against code theft?

Opaque code protects against code theft by making it difficult for unauthorized individuals to understand and use the stolen code. Even if someone manages to obtain the obfuscated code, they will still need to decipher it to make sense of its functionality. This serves as a deterrent and adds an extra layer of protection against code theft.

Can opaque data structures improve software reliability?

Opaque data structures can contribute to improved software reliability. By encapsulating data and providing a controlled interface for manipulation, the chances of accidental errors or unintended modifications are reduced. This promotes data integrity and reduces the risk of bugs or issues caused by direct manipulation of data.

How does opaque code protect against reverse engineering?

Opaque code protects against reverse engineering by making it difficult for individuals to understand and replicate the original source code. Code obfuscation techniques, such as renaming variables, adding irrelevant code, or using complex control flow, hinder the reverse engineering process and discourage unauthorized access to the underlying logic.

How does opaque networking contribute to network resilience?

Opaque networking enhances network resilience by obscuring the internal network structure and routing decisions. This makes it harder for attackers to map out potential attack vectors or identify critical components to target. By reducing the visibility of the network, it becomes more challenging for adversaries to disrupt or compromise its functionality, increasing overall network resilience.

Can opaque data structures help prevent information leaks in multi-tenant environments?

Yes, opaque data structures can contribute to preventing information leaks in multi-tenant environments. By encapsulating tenant-specific data within opaque structures and enforcing access controls through well-defined interfaces, the risk of inadvertent data leakage between tenants is minimized. This helps ensure data privacy and segregation in shared environments.

Can opaque data structures enhance data privacy in cloud computing?

Yes, opaque data structures can enhance data privacy in cloud computing. By encapsulating sensitive data within opaque structures, cloud providers can ensure that the underlying data remains hidden from unauthorized access. This adds an extra layer of protection to sensitive data stored and processed in cloud environments.

How does opaque cryptography protect against differential cryptanalysis?

Opaque cryptography protects against differential cryptanalysis by making it difficult for attackers to identify and exploit differential characteristics within the encryption algorithm. The use of hidden algorithms and keys hinders the attacker's ability to analyze the encryption process and derive meaningful information, thwarting differential cryptanalysis attacks.

Can opaque data structures assist in securing user authentication processes?

Yes, opaque data structures can assist in securing user authentication processes. By encapsulating sensitive user data within opaque structures, such as hashed passwords or encrypted tokens, the risk of unauthorized access or tampering is minimized. This helps ensure the confidentiality and integrity of user authentication in various applications.

Can opaque code be used to protect sensitive algorithms in embedded systems?

Yes, opaque code can be used to protect sensitive algorithms in embedded systems. By obfuscating the code, they can prevent unauthorized individuals from tampering with or extracting proprietary algorithms used in embedded systems. This helps safeguard the intellectual property and functionality of the system.

How does opaque networking contribute to privacy in communication protocols?

Opaque networking enhances privacy in communication protocols by obscuring the content and metadata of network traffic. By encrypting the communication and using techniques like onion routing or mix networks, opaque networking prevents eavesdroppers or network adversaries from intercepting, analyzing, or tracking the communication, ensuring a higher level of privacy and anonymity.

Can opaque data structures secure sensitive internet of things (IoT) device information?

Yes, opaque data structures can assist in protecting sensitive information in IoT devices. By encapsulating sensitive data within opaque structures and applying encryption, access control, or secure communication protocols, the confidentiality and integrity of the data are preserved, mitigating the risk of unauthorized access or data compromise in IoT environments.

How does opaque data encryption contribute to data breach prevention?

Opaque data encryption contributes to data breach prevention by ensuring that sensitive data is encrypted and protected from unauthorized access. In the event of a data breach, the encrypted data remains unreadable and unusable without the proper decryption keys. Opaque data encryption adds an extra layer of security, reducing the impact of data breaches.

Can opaque code protect against runtime attacks in web applications?

Yes, opaque code can protect against runtime attacks in web applications. By implementing runtime protection mechanisms such as input validation, secure coding practices, and runtime monitoring, opaque code can prevent common runtime attacks like buffer overflows, injection attacks, or privilege escalation. This helps ensure the security and integrity of web applications.

{"pageComponentDataId":"e857fdeft7e51-4b61-84dc-bccec6e68e00","pageComponentId":"e857fdeft7e51-4b61-84dc-bccec6e68e00","isAssociatedRelease":"true","pageComponentDataLangCode":"en_au","configData":{"jumpType":"currentTab","headlineColor":"black","displayNumber":"","styleMode":"vertical","miniCardHoMode":"2","headline":"","products":[{"number":{"t_id":"21kccto1wwau5","language":{"en_nz":"21kccto1wwau5","en_au":"21kccto1wwau5","en":""},"id":"Pageb33ce4b8-4839-4ba3-b993-7296d68a91b8"}},{"number":{"t_id":"21mccto1wwau3","language":{"en_nz":"21mccto1wwau3","en_au":"21mccto1wwau3","en":""},"id":"Page1fa61927-074c-4fe0-a8df-5c94362fb75c"}},{"number":{"t_id":"21lkcto1wwau3","language":{"en_nz":"21lkcto1wwau3","en_au":"21lkcto1wwau3","en":""},"id":"Pageca014688-410e-439a-a4c6-bba2ef6d4715"}},{"number":{"t_id":"21g2cto1wwau3","language":{"en_nz":"21g2cto1wwau3","en_au":"21g2cto1wwau3","en":""},"id":"Page79cd32c8-d467-4d68-b955-d273bb24eda7"}}]},"urlPrefix":"AAAAAAAH","title":"glossary-right-blue-boxes-fragment","pageId":"65b55929-de05-417a-a92a-ccb888d329b0","urlEdit":0,"uri":"/FragmentDirectory/glossary/glossary-right-blue-boxes-fragment.frag","pageComponentUuid":"e857fdeft7e51-4b61-84dc-bccec6e68e00"}
coming coming
Starting at
List Price
Web Price
Web Price:
List Price
Web Price
List Price is Lenovo’s estimate of product value based on the industry data, including the prices at which first and third-party retailers and etailers have offered or valued the same or comparable products. Third-party reseller data may not be based on actual sales.
Web Price is Lenovo’s estimate of product value based on industry data, including the prices at which Lenovo and/or third-party retailers and e-tailers have offered or valued the same or comparable products. Third-party data may not be based on actual sales.
Learn More
See More
See Less
View {0} Model
View {0} Models
Part Number:
Features
See More
See Less
compare
Added!
Great choice!
You may compare up to 4 products per product category (laptops, desktops, etc). Please de-select one to add another.
View Your Comparisons
Add To Cart
Add To Cart
We're sorry,
Products are temporarily unavailable.
Continue shopping
Learn More
Coming Soon
Featured Product
Top Deals of the Day
Oops! No results found. Visit the categories above to find your product.
Save
open in new tab
© 2024 Lenovo. All rights reserved.
© {year} Lenovo. All rights reserved.
Compare  ()
x