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Check out our Dark Pool Levels

QEP
QEP RESOURCES, INC.
stock NYSE

Inactive
Mar 16, 2021
4.08USD-4.450%(-0.19)10,100,723
Pre-market
0.00USD-100.000%(-4.27)0
After-hours
0.00USD0.000%(0.00)0
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QEP Reddit Mentions
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We have sentiment values and mention counts going back to 2017. The complete data set is available via the API.
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QEP Specific Mentions
As of Jul 11, 2026 10:35:56 PM EDT (<1 min. ago)
Includes all comments and posts. Mentions per user per ticker capped at one per hour.
106 days ago • u/GeologistNo6346 • r/binance • can_multichain_byzantine_fault_tolerance_survive • Discussion • B
With recent news from Google approaching the date of "Q-Day" (when quantum computing manages to break current cryptography), the conversation on Web3 has focused almost exclusively on migrating to Post-Quantum Cryptography (PQC) as Dilithium.
I'm building an ecosystem of Web3 security oracles powered by AI and a data anchor protocol (QEP). As I prepare version 2.0 for testing by connecting to a real quantum computer, I have realized that, mathematically, we could repel a quantum attack today using the blockchain's own topology, without relying solely on new PQC algorithms.
The central idea is based on what I call "Echoes," implementing a Multi-Chain BFT" (Multi-Chain BFT) Byzantine Fault Tolerance through Cross-Chain Witnessing.
Here's how architecture works to see what you think:
The problem:
If Shor's algorithm breaks the elliptic curves (ECDSAs) of a network like Polygon or Ethereum, a quantum attacker could derive private keys or forge signatures to alter the status of a Smart Contract or an on-chain security record. If an Oracle reads only from that chain, the system is compromised.
The Solution (The Echo Protocol):
When our engine issues a security verdict (a hash), it doesn't anchor it to a single blockchain. The protocol triggers simultaneous "Ecos" from that same reportHash to multiple networks (e.g. Polygon, Arbitrum, Optimism, and Ethereum Mainnet).
The Attack and Defense Scenario:
Q-Day is coming. A quantum attacker manages to break Polygon's cryptography and alters the on-chain record to pass off a malicious contract as a secure one.
Before validating the information, our Oracle consults the network.
The system reads the hash in Polygon (modified by the attacker). But thanks to Cross-Chain Witnessing, he also reads the "Echoes" in Arbitrum and Optimism.
Mismatch detected. As it is logistically almost impossible for a quantum computer to break and alter the state of 3 different blockchains, with different consensus mechanisms, at the exact same time, the system detects the divergence.
The compromised network (Polygon) is isolated by the consensus of other networks. The attack is repelled at the architectural level.
Basically, we're using the current fragmentation of Layer 2 as a distributed protective shield, assuming that the computational power needed for a simultaneous 51% quantum attack across multiple networks breaks any economic incentives.
I'm collecting data to bring this architecture to quantum simulator testing soon.
What do you think about this approach? Do you see any attack vectors or blind spots in this Multi-Chain BFT model that are slipping away from me? I would love to discuss the limit cases.
sentiment 0.22
106 days ago • u/GeologistNo6346 • r/binance • can_multichain_byzantine_fault_tolerance_survive • Discussion • B
With recent news from Google approaching the date of "Q-Day" (when quantum computing manages to break current cryptography), the conversation on Web3 has focused almost exclusively on migrating to Post-Quantum Cryptography (PQC) as Dilithium.
I'm building an ecosystem of Web3 security oracles powered by AI and a data anchor protocol (QEP). As I prepare version 2.0 for testing by connecting to a real quantum computer, I have realized that, mathematically, we could repel a quantum attack today using the blockchain's own topology, without relying solely on new PQC algorithms.
The central idea is based on what I call "Echoes," implementing a Multi-Chain BFT" (Multi-Chain BFT) Byzantine Fault Tolerance through Cross-Chain Witnessing.
Here's how architecture works to see what you think:
The problem:
If Shor's algorithm breaks the elliptic curves (ECDSAs) of a network like Polygon or Ethereum, a quantum attacker could derive private keys or forge signatures to alter the status of a Smart Contract or an on-chain security record. If an Oracle reads only from that chain, the system is compromised.
The Solution (The Echo Protocol):
When our engine issues a security verdict (a hash), it doesn't anchor it to a single blockchain. The protocol triggers simultaneous "Ecos" from that same reportHash to multiple networks (e.g. Polygon, Arbitrum, Optimism, and Ethereum Mainnet).
The Attack and Defense Scenario:
Q-Day is coming. A quantum attacker manages to break Polygon's cryptography and alters the on-chain record to pass off a malicious contract as a secure one.
Before validating the information, our Oracle consults the network.
The system reads the hash in Polygon (modified by the attacker). But thanks to Cross-Chain Witnessing, he also reads the "Echoes" in Arbitrum and Optimism.
Mismatch detected. As it is logistically almost impossible for a quantum computer to break and alter the state of 3 different blockchains, with different consensus mechanisms, at the exact same time, the system detects the divergence.
The compromised network (Polygon) is isolated by the consensus of other networks. The attack is repelled at the architectural level.
Basically, we're using the current fragmentation of Layer 2 as a distributed protective shield, assuming that the computational power needed for a simultaneous 51% quantum attack across multiple networks breaks any economic incentives.
I'm collecting data to bring this architecture to quantum simulator testing soon.
What do you think about this approach? Do you see any attack vectors or blind spots in this Multi-Chain BFT model that are slipping away from me? I would love to discuss the limit cases.
sentiment 0.22


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