GEM

GEM is the core asset of the CyberCharge ecosystem, with a total supply of 5 billion. Among them, 4 billion are distributed through smart hardware mining and the Gem Mine, while 1 billion are reserved for ecosystem incentives and market expansion. Built on a strong deflationary mechanism, GEM serves as the fundamental asset for all user activities on the platform.

Use Cases of GEM

GEM plays a central role across the ecosystem, and can be used for:

  • Upgrading charging devices

  • Participating in the Gem Mine

  • Enhancing AIDoggy mining efficiency

  • Serving as a medium for platform activities and marketplace transactions

  • Acting as a key consumable in specific gameplay scenarios

In short, GEM functions as the primary circulating and value-bearing asset within the CyberCharge ecosystem.

How to Earn GEM

Users can acquire GEM through multiple channels, including:

  • Daily charging-based mining

  • Participation in the Gem Mine

  • Completing missions and activities

  • Marketplace trading

  • Mining rewards from AIDoggy StarMine

Dual Deflationary Mechanism of GEM

To ensure sustainable long-term growth and asset scarcity, GEM adopts a dual-decreasing model:

  1. Burn-driven dynamic production decay

  2. Supply ratio–based staged halving

Together, these mechanisms regulate GEM issuance and market circulation.

1. Ecosystem Black Hole Burn

Dynamic supply absorption

All GEM fees triggered by user activities are permanently burned into a black hole address, ensuring irreversible removal from circulation. This includes:

  • Marketplace transactions

  • Device upgrades

  • NFT synthesis

  • Game settlements

  • CyberCharge minting

Through continuous burning, GEM supply in circulation is gradually reduced, strengthening scarcity and intrinsic value.

2. Staged Supply Reduction Mechanism

Output ceiling suppression

Based on cumulative production milestones:

  • When total GEM output reaches 50% of max supply, all GEM-related rewards are reduced by 50%.

  • When total GEM output reaches 75% of max supply, production is reduced by 75%.

  • And so on in subsequent phases.

This staged halving ensures controlled emission and maintains long-term scarcity.

All GEM capacity is further multiplied by a GEM capacity coefficient:

GEM Output = Normal GEM Output * GEM Capacity Coefficient

Total GEM Output
GEM Output Ratio
GEM Capacity Coefficient

<2.5B

<50%

100%

2.5B

50%

50%

3.75B

75%

25%

4.375B

87.50%

12.50%

4.6875B

93.75%

6.25%

4.84375B

96.88%

3.13%

4.921875B

98.44%

1.56%

4.960937B

99.22%

0.78%

4.980468B

99.61%

0.39%

4.990234B

99.80%

0.20%

4.995117B

99.90%

0.10%

4.997558B

99.95%

0.05%

4.998779B

99.98%

0.02%

4.999389B

99.99%

0.01%

5.0B

100%

0%

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