Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
SLIDE 16: PERFORMANCE METRICS & BENCHMARK RESULTS Presenter: Rida - 40 seconds Graph 1: Cryptographic Operation Latency - Bar chart: Encryption vs Decryption vs Sign vs Verify - All operations: less than 2ms on Pi 5 - Y-axis: milliseconds (0-2.5) Graph 2: Key Deletion Latency - Line graph: Time vs Number of keys (1, 5, 10, 50 keys) - All deletions: less than 100ms - Demonstrates O(n) linear scaling Graph 3: Tamper Detection End-to-End Latency - Wire break → ESP32 detects → UART message → Pi receives → HSM locked - Total latency: less than 200ms - Breakdown: Detection (10 microseconds) + UART (50ms) + Processing (100ms) + API response (40ms) Graph 4: System Resource Usage During Operations - CPU usage: less than 5% idle, less than 20% during crypto - Memory: ~150MB baseline, +50MB during operation - Network: less than 1 Mbps on direct ethernet Graphics: Professional charts with labels and legends
Ancient Black dark skinned African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Engraving: On the back of the lock pendant, engrave a heartfelt message such as "You hold the key to my heart," or "Forever locked together," in a script font to add a personal touch. Similarly, engrave the key pendant with a complementary message, perhaps "You are my everything," or "Together, we unlock love," reinforcing the sentiment of mutual connection and affection.
Ancient Black African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Professional bar chart titled "Cryptographic Operation Latency". Y-axis "milliseconds (ms)" from 0 to 2.5. Four bars: Encryption (1.2ms), Decryption (1.3ms), Sign (1.8ms), Verify (1.5ms). Clean white background, subtle grid, dark blue bars, x-axis labels horizontal. Suitable for a research paper.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
SLIDE 16: PERFORMANCE METRICS & BENCHMARK RESULTS Presenter: Rida - 40 seconds Graph 1: Cryptographic Operation Latency - Bar chart: Encryption vs Decryption vs Sign vs Verify - All operations: less than 2ms on Pi 5 - Y-axis: milliseconds (0-2.5) Graph 2: Key Deletion Latency - Line graph: Time vs Number of keys (1, 5, 10, 50 keys) - All deletions: less than 100ms - Demonstrates O(n) linear scaling Graph 3: Tamper Detection End-to-End Latency - Wire break → ESP32 detects → UART message → Pi receives → HSM locked - Total latency: less than 200ms - Breakdown: Detection (10 microseconds) + UART (50ms) + Processing (100ms) + API response (40ms) Graph 4: System Resource Usage During Operations - CPU usage: less than 5% idle, less than 20% during crypto - Memory: ~150MB baseline, +50MB during operation - Network: less than 1 Mbps on direct ethernet Graphics: Professional charts with labels and legends
Ancient Black dark skinned African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Engraving: On the back of the lock pendant, engrave a heartfelt message such as "You hold the key to my heart," or "Forever locked together," in a script font to add a personal touch. Similarly, engrave the key pendant with a complementary message, perhaps "You are my everything," or "Together, we unlock love," reinforcing the sentiment of mutual connection and affection.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Ancient Black African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Professional bar chart titled "Cryptographic Operation Latency". Y-axis "milliseconds (ms)" from 0 to 2.5. Four bars: Encryption (1.2ms), Decryption (1.3ms), Sign (1.8ms), Verify (1.5ms). Clean white background, subtle grid, dark blue bars, x-axis labels horizontal. Suitable for a research paper.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
SLIDE 16: PERFORMANCE METRICS & BENCHMARK RESULTS Presenter: Rida - 40 seconds Graph 1: Cryptographic Operation Latency - Bar chart: Encryption vs Decryption vs Sign vs Verify - All operations: less than 2ms on Pi 5 - Y-axis: milliseconds (0-2.5) Graph 2: Key Deletion Latency - Line graph: Time vs Number of keys (1, 5, 10, 50 keys) - All deletions: less than 100ms - Demonstrates O(n) linear scaling Graph 3: Tamper Detection End-to-End Latency - Wire break → ESP32 detects → UART message → Pi receives → HSM locked - Total latency: less than 200ms - Breakdown: Detection (10 microseconds) + UART (50ms) + Processing (100ms) + API response (40ms) Graph 4: System Resource Usage During Operations - CPU usage: less than 5% idle, less than 20% during crypto - Memory: ~150MB baseline, +50MB during operation - Network: less than 1 Mbps on direct ethernet Graphics: Professional charts with labels and legends
Engraving: On the back of the lock pendant, engrave a heartfelt message such as "You hold the key to my heart," or "Forever locked together," in a script font to add a personal touch. Similarly, engrave the key pendant with a complementary message, perhaps "You are my everything," or "Together, we unlock love," reinforcing the sentiment of mutual connection and affection.
Professional bar chart titled "Cryptographic Operation Latency". Y-axis "milliseconds (ms)" from 0 to 2.5. Four bars: Encryption (1.2ms), Decryption (1.3ms), Sign (1.8ms), Verify (1.5ms). Clean white background, subtle grid, dark blue bars, x-axis labels horizontal. Suitable for a research paper.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Ancient Black dark skinned African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Ancient Black African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Engraving: On the back of the lock pendant, engrave a heartfelt message such as "You hold the key to my heart," or "Forever locked together," in a script font to add a personal touch. Similarly, engrave the key pendant with a complementary message, perhaps "You are my everything," or "Together, we unlock love," reinforcing the sentiment of mutual connection and affection.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Ancient Black African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
SLIDE 16: PERFORMANCE METRICS & BENCHMARK RESULTS Presenter: Rida - 40 seconds Graph 1: Cryptographic Operation Latency - Bar chart: Encryption vs Decryption vs Sign vs Verify - All operations: less than 2ms on Pi 5 - Y-axis: milliseconds (0-2.5) Graph 2: Key Deletion Latency - Line graph: Time vs Number of keys (1, 5, 10, 50 keys) - All deletions: less than 100ms - Demonstrates O(n) linear scaling Graph 3: Tamper Detection End-to-End Latency - Wire break → ESP32 detects → UART message → Pi receives → HSM locked - Total latency: less than 200ms - Breakdown: Detection (10 microseconds) + UART (50ms) + Processing (100ms) + API response (40ms) Graph 4: System Resource Usage During Operations - CPU usage: less than 5% idle, less than 20% during crypto - Memory: ~150MB baseline, +50MB during operation - Network: less than 1 Mbps on direct ethernet Graphics: Professional charts with labels and legends
Ancient Black dark skinned African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Professional bar chart titled "Cryptographic Operation Latency". Y-axis "milliseconds (ms)" from 0 to 2.5. Four bars: Encryption (1.2ms), Decryption (1.3ms), Sign (1.8ms), Verify (1.5ms). Clean white background, subtle grid, dark blue bars, x-axis labels horizontal. Suitable for a research paper.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
SLIDE 16: PERFORMANCE METRICS & BENCHMARK RESULTS Presenter: Rida - 40 seconds Graph 1: Cryptographic Operation Latency - Bar chart: Encryption vs Decryption vs Sign vs Verify - All operations: less than 2ms on Pi 5 - Y-axis: milliseconds (0-2.5) Graph 2: Key Deletion Latency - Line graph: Time vs Number of keys (1, 5, 10, 50 keys) - All deletions: less than 100ms - Demonstrates O(n) linear scaling Graph 3: Tamper Detection End-to-End Latency - Wire break → ESP32 detects → UART message → Pi receives → HSM locked - Total latency: less than 200ms - Breakdown: Detection (10 microseconds) + UART (50ms) + Processing (100ms) + API response (40ms) Graph 4: System Resource Usage During Operations - CPU usage: less than 5% idle, less than 20% during crypto - Memory: ~150MB baseline, +50MB during operation - Network: less than 1 Mbps on direct ethernet Graphics: Professional charts with labels and legends
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Engraving: On the back of the lock pendant, engrave a heartfelt message such as "You hold the key to my heart," or "Forever locked together," in a script font to add a personal touch. Similarly, engrave the key pendant with a complementary message, perhaps "You are my everything," or "Together, we unlock love," reinforcing the sentiment of mutual connection and affection.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Ancient Black African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Ancient Black dark skinned African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
Professional bar chart titled "Cryptographic Operation Latency". Y-axis "milliseconds (ms)" from 0 to 2.5. Four bars: Encryption (1.2ms), Decryption (1.3ms), Sign (1.8ms), Verify (1.5ms). Clean white background, subtle grid, dark blue bars, x-axis labels horizontal. Suitable for a research paper.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Professional bar chart titled "Cryptographic Operation Latency". Y-axis "milliseconds (ms)" from 0 to 2.5. Four bars: Encryption (1.2ms), Decryption (1.3ms), Sign (1.8ms), Verify (1.5ms). Clean white background, subtle grid, dark blue bars, x-axis labels horizontal. Suitable for a research paper.
Create an image illustrating asymmetric encryption, showcasing two distinct keys - a public key and a private key. The public key should be depicted as freely accessible to anyone, while the private key should be shown as securely guarded. Represent a sender encrypting a message using the recipient's public key and the recipient decrypting the message using their private key. Emphasize the one-way nature of the process and the security it provides. Use clear visual elements and symbols to convey the concept of secure communication through asymmetric encryption.
Ancient Black dark skinned African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic
SLIDE 16: PERFORMANCE METRICS & BENCHMARK RESULTS Presenter: Rida - 40 seconds Graph 1: Cryptographic Operation Latency - Bar chart: Encryption vs Decryption vs Sign vs Verify - All operations: less than 2ms on Pi 5 - Y-axis: milliseconds (0-2.5) Graph 2: Key Deletion Latency - Line graph: Time vs Number of keys (1, 5, 10, 50 keys) - All deletions: less than 100ms - Demonstrates O(n) linear scaling Graph 3: Tamper Detection End-to-End Latency - Wire break → ESP32 detects → UART message → Pi receives → HSM locked - Total latency: less than 200ms - Breakdown: Detection (10 microseconds) + UART (50ms) + Processing (100ms) + API response (40ms) Graph 4: System Resource Usage During Operations - CPU usage: less than 5% idle, less than 20% during crypto - Memory: ~150MB baseline, +50MB during operation - Network: less than 1 Mbps on direct ethernet Graphics: Professional charts with labels and legends
Engraving: On the back of the lock pendant, engrave a heartfelt message such as "You hold the key to my heart," or "Forever locked together," in a script font to add a personal touch. Similarly, engrave the key pendant with a complementary message, perhaps "You are my everything," or "Together, we unlock love," reinforcing the sentiment of mutual connection and affection.
Ancient Black African Egyptian person with dark skin using the wooden key to unlock door, key inserted into bolt mechanism, lifting motion shown, Egyptian home doorway, person wearing traditional ancient Egyptian clothing, demonstration of the unlocking process, educational but cinematic