import std.algorithm, std.conv, std.range, std.stdio, std.string;

const mod = 10^^9+7;
alias mint = FactorRing!mod;

void main()
{
  auto rd = readln.split.to!(int[]), n = rd[0], k = rd[1];

  auto dp = BiTree!mint(k+1);
  dp[0] += mint(1);

  foreach (i; 1..n)
    foreach_reverse (j; 0..min(k, i*(i+1)/2)+1)
      dp[j] += dp[max(0, j-i)..j];

  writeln(dp[0..k+1]);
}

struct BiTree(T)
{
  const size_t n;
  T[] buf;

  this(size_t n)
  {
    this.n = n;
    this.buf = new T[](n + 1);
  }

  void opIndexOpAssign(string op: "+")(T val, size_t i)
  {
    ++i;
    for (; i <= n; i += i & -i)
      buf[i] += val;
  }

  pure T opSlice(size_t r, size_t l) const
  {
    return get(l) - get(r);
  }

  pure size_t opDollar() const { return n; }
  pure T opIndex(size_t i) const { return opSlice(i, i+1); }

private:

  pure T get(size_t i) const
  {
    auto s = T(0);
    for (; i > 0; i -= i & -i)
      s += buf[i];
    return s;
  }
}

struct FactorRing(int m, bool pos = false)
{
  version(BigEndian) {
    union { long vl; struct { int vi2; int vi; } }
  } else {
    union { long vl; int vi; }
  }

  static init() { return FactorRing!(m, pos)(0); }

  @property int toInt() { return vi; }
  alias toInt this;

  this(int v) { vi = v; }
  this(int v, bool runMod) { vi = runMod ? mod(v) : v; }
  this(long v) { vi = mod(v); }

  ref FactorRing!(m, pos) opAssign(int v) { vi = v; return this; }

  pure auto mod(int v) const
  {
    static if (pos) return v % m;
    else return (v % m + m) % m;
  }

  pure auto mod(long v) const
  {
    static if (pos) return cast(int)(v % m);
    else return cast(int)((v % m + m) % m);
  }

  static if (!pos) {
    pure auto opUnary(string op: "-")() const { return FactorRing!(m, pos)(mod(-vi)); }
  }

  static if (m < int.max / 2) {
    pure auto opBinary(string op: "+")(int rhs) const { return FactorRing!(m, pos)(mod(vi + rhs)); }
    pure auto opBinary(string op: "-")(int rhs) const { return FactorRing!(m, pos)(mod(vi - rhs)); }
  } else {
    pure auto opBinary(string op: "+")(int rhs) const { return FactorRing!(m, pos)(mod(vl + rhs)); }
    pure auto opBinary(string op: "-")(int rhs) const { return FactorRing!(m, pos)(mod(vl - rhs)); }
  }
  pure auto opBinary(string op: "*")(int rhs) const { return FactorRing!(m, pos)(mod(vl * rhs)); }

  pure auto opBinary(string op)(FactorRing!(m, pos) rhs) const
    if (op == "+" || op == "-" || op == "*") { return opBinary!op(rhs.vi); }

  static if (m < int.max / 2) {
    auto opOpAssign(string op: "+")(int rhs) { vi = mod(vi + rhs); }
    auto opOpAssign(string op: "-")(int rhs) { vi = mod(vi - rhs); }
  } else {
    auto opOpAssign(string op: "+")(int rhs) { vi = mod(vl + rhs); }
    auto opOpAssign(string op: "-")(int rhs) { vi = mod(vl - rhs); }
  }
  auto opOpAssign(string op: "*")(int rhs) { vi = mod(vl * rhs); }

  auto opOpAssign(string op)(FactorRing!(m, pos) rhs)
    if (op == "+" || op == "-" || op == "*") { return opOpAssign!op(rhs.vi); }
}