🏆Staking
Last updated
Last updated
Repo Swap offers a diverse range of staking pools designed to empower Launchpad users with access to key platform functionalities, including participation in Initial Decentralized Offerings (IDOs), project placement, and voting. This is made possible by allowing users to freeze a portion of their REPX tokens. Beyond serving utilitarian purposes, certain pools also reward frozen tokens with Annual Percentage Rate (APR), enabling users to not only engage with the platform but also to profit by multiplying their assets.
As previously highlighted, Repo Swap provides investors with access to four types of stacking pools:
A pool in which the investor receives the maximum gain, both in AP and APR, but with a lock for a certain period and a restriction on stake withdrawal before the end of the lock
a pool with no limit on stake input/withdrawal, but providing less AP per REPX and less APR
a pool with no restrictions and no accrual of AP, suitable for those who wish to receive a yield in REPX tokens without using the functionality of Repo Swap
LP-token staking (liquidity pair with the platform token e.g. REPX-BNB)
* Interest rates are given to illustrate the operation of the stacking mechanism. The exact ARP rates will be determined when creating pools.
In addition to pools for investors, there is also an IDO pool — a special pool without yield and AP accrual, required for projects that want to freely get listed on RepoSwap.
Staking serves as a beneficial mechanism for early investors as well. Tokens acquired during a private investment round are automatically directed into a fixed staking pool. Essentially, by purchasing REPX tokens during the private round, investors not only gain Annual Percentage Rate (APR) rewards but also witness an increment in the number of their tokens until distribution occurs. Moreover, the bonus feature takes effect immediately upon investment in Reposwap . Hence, the earlier a user invests, the greater the profit they accrue during the token allocation phase.
Furthermore, bonuses incorporate daily auto-compounding, meaning that the Annual Percentage Yield (APY), also referred to as the Effective Annual Rate of Return (EAR), rather than the Annual Percentage Rate (APR), is considered. This entails that the bonus is compounded daily, resulting in an even larger bonus. Unlike APR, APY accounts for compound interest, leading to potentially greater returns over time.
THE FORMULA TO
CALCULATE APY
*Where n is the annual number of reinvestments
Example: an investor invested 10000 REPX at 15% APR. To calculate the sum on any day after investing, let us use the formula
X - is the sum
D — an initial deposit
n — the annual number of accrual reinvestments
y — the time passed in years (to calculate in
days one can use the following: 1 / 365)
For instance, let's consider a user who invested 1000 REPX and accumulated 1100 REPX by the time of the TGE. The first distribution according to tokenomics is scheduled, where the investor will receive tokens from the invested funds and from the accumulated interest (a total of 1100 REPX). The next distribution occurs in a month at 7.5% APR. At the beginning of the period, the investor has 9000 REPX of invested volume and 900 REPX of interest, totaling 9900 REPX. According to the formula above, in 30 days(a month) the investor will accumulate
Where 9000 REPX is the rest from the initial investment and 1022.7849 REPX is the accumulated interest. In this case, the payout will be 835.23 REPX , where 750 REPX is the payout from the original investment of 7.5% and 1022.7849 * 7.5 / 90 = 85.23 REPX . In another month, the investor will have 9301.49 REPX and the payout will be 750 REPX + 95.59 REPX and so on.
APR
Lock
AP
withdrawal fee before unlock
7%
10%
15%
25%
40%
2 weeks
1 month
3 months
6 months
1 year
1 REPX = 1 AP
30%
APR
Lock
AP
withdrawal fee before unlock
7%
-
1 REPX =0.5 AP
-
APR
Lock
AP
withdrawal fee before unlock
25%
-
1 REPX = 1 AP
30%
APR
Lock
AP
withdrawal fee before unlock
14%
20%
30%
50%
80%
2 weeks
1 month
3 months
6 months
1 year
1 LP = 2 * k AP, where k > 0.75 — pair coefficient
30%