Bitcoin Solaris Can Address Vulnerabilities In Pepe Coin’s ERC-20 Implementation

Pepe Coin, like many ERC-20 tokens, leveraged Ethereum’s standard token contract to enable quick deployment and high liquidity. But speed came at a cost. Audits and on-chain analysis have revealed vulnerabilities typical of minimal ERC-20 implementations. Some of them include unchecked transfers, insufficient permission control, and opaque metadata handling. 

These weaknesses are not unique to Pepe, but systemic across tokens using default templates. Bitcoin Solaris takes a fundamentally different approach by embedding homomorphic encryption directly into its smart contract layer.

Homomorphic encryption allows computations to be performed on encrypted data without decrypting it. Bitcoin Solaris is the first blockchain protocol to integrate this technology natively. Thus, it enables secure, verifiable smart contract operations while preserving privacy and ensuring data integrity at the processing level. This advancement directly addresses the structural limitations of ERC-20 contracts. It also elevates the network’s capacity to handle sensitive and high-value on-chain applications.

Native Homomorphic Encryption for Smart Contract Execution

Bitcoin Solaris applies homomorphic encryption to select smart contract functions across its Solaris Layer. This layer operates on Proof-of-History (PoH) and Proof-of-Time (PoT) consensus. These encrypted operations allow for mathematical transformations, such as balance validation, conditional logic, and token distribution. They do so without exposing user input or transaction data to the network.

This layer-level encryption model is built into the virtual machine and compiler logic. It means developers writing contracts on Bitcoin Solaris can natively invoke encrypted computation modules without off-chain assistance. The result is a privacy-preserving execution environment that goes beyond zero-knowledge proofs or basic obfuscation. It provides actual mathematical confidentiality, which is resistant to both passive observation and active exploitation.

Pepe Coin and similar ERC-20 tokens offer no such safeguards. Their public execution model, while efficient, leaves every function, value, and call exposed. It creates attack surfaces that have been routinely exploited across DeFi and memecoin environments.

Smart contract exploits often originate from predictable state behavior. By executing logic on decrypted inputs, standard tokens expose critical data to mempool observers, arbitrage bots, or malicious contract wrappers. Bitcoin Solaris’s encrypted computation model eliminates these attack vectors by ensuring sensitive calculations occur entirely on encrypted inputs. At the same time, it returns verifiable, deterministic outputs.

The Merkle-DAG structure of the Solaris Layer reinforces this by embedding cryptographic lineage into each contract execution state. Combined, these features provide a formal defense against:

• Front-running (via private computation)
• State reentry attacks (via atomic Merkle proofs)
• Parameter sniffing and replay exploits (via ephemeral encryption keys tied to transaction IDs)

In a recent feature, Crypto Nitro compared Bitcoin Solaris’s encrypted smart contract capabilities with ERC-20-based ecosystems. The video walks through homomorphic encryption in practice and highlights how data privacy now integrates directly with contract logic.

Presale Phase 3: Participating Before the Privacy Layer Expands

Bitcoin Solaris is currently in Presale Phase 3, with BTC-S tokens priced at $3 USDT. This phase gives users and developers access before full deployment of the homomorphic encryption layer across the public contract registry and before centralized exchange listings begin.

The supply cannot go beyond the capped 21 million BTC-S tokens. The project has allocated 4.2 million tokens (20%) for presale. It does not allow inflation or dynamic minting. All further distribution is tied to mining or validator participation, ensuring scarcity remains intact as infrastructure scales.

Audits Confirm Cryptographic Integrity and On-Chain Privacy

Bitcoin Solaris’s encryption system and core protocol mechanics have passed rigorous third-party reviews:

• Cyberscope Audit: Verified encryption module logic and secure function calls
• Freshcoins Audit: Reviewed privacy-preserving state transitions and token emission protections
• KYC Verification: Confirmed development team identity and operational transparency

These audits confirm the protocol’s readiness for secure application development, with native privacy features beyond what typical ERC-20 platforms can offer.

Pepe Coin and other ERC-20 tokens opened the door to rapid asset deployment. However, Bitcoin Solaris is building the infrastructure for secure, encrypted computation. With homomorphic encryption at the smart contract level, it protects user data from start to finish. 

It eliminates front-running vectors and ensures privacy without off-chain dependencies. As Phase 3 of the presale continues, Bitcoin Solaris sets a new bar for cryptographic integrity in blockchain architecture. It is bringing real protection to decentralized computing.

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